A model class extending the StandardModel Higgs sector with. More...

#include <HiggsChiral.h>

Inheritance diagram for HiggsChiral:

Detailed Description

A model class extending the StandardModel Higgs sector with.

Author: HEPfit Collaboration

Copyright: GNU General Public License

Model parameters

The model parameters of HiggsChiral (in addition to the StandardModel ones) are summarized below:

Label	LaTeX symbol	Description
cv	$c_V$
ct	$c_t$
cb	$c_b$
cc	$c_c$
ctau	$c_\tau$
cmu	$c_\mu$
cg	$c_g$
cga	$c_\gamma$
cZga	$c_{Z\gamma}$

Model flags

The Flags of HiggsChiral are summarized below:

Label	Value	Description
Universalcf	TRUE / FALSE	This flag is set to TRUE if all cf are assumed to take the same universal value. The value is controlled by the parameter ct. The default value is FALSE.

Definition at line 97 of file HiggsChiral.h.

Public Member Functions
virtual double	BrHbbRatio () const
	The ratio of the Br $(H\to b\bar{b})$ in the current model and in the Standard Model. More...

virtual double	BrHccRatio () const
	The ratio of the Br $(H\to c\bar{c})$ in the current model and in the Standard Model. More...

virtual double	BrHgagaRatio () const
	The ratio of the Br $(H\to \gamma\gamma)$ in the current model and in the Standard Model. More...

virtual double	BrHggRatio () const
	The ratio of the Br $(H\to gg)$ in the current model and in the Standard Model. More...

virtual double	BrHmumuRatio () const
	The ratio of the Br $(H\to \mu^+\mu^-)$ in the current model and in the Standard Model. More...

virtual double	BrHtautauRatio () const
	The ratio of the Br $(H\to \tau^+\tau^-)$ in the current model and in the Standard Model. More...

virtual double	BrHtoinvRatio () const
	The ratio of the Br $(H\to invisible)$ in the current model and in the Standard Model. More...

virtual double	BrHWW2l2vRatio () const
	The ratio of the Br $(H\to WW^*\to l\nu l\nu)$ ( $l=e,\mu $) in the current model and in the Standard Model. More...

virtual double	BrHWWRatio () const
	The ratio of the Br $(H\to WW)$ in the current model and in the Standard Model. More...

virtual double	BrHZgaeeRatio () const
	The ratio of the Br $(H\to Z\gamma\to ee\gamma)$ in the current model and in the Standard Model. More...

virtual double	BrHZgallRatio () const
	The ratio of the Br $(H\to Z\gamma\to ll\gamma)$ ( $l=e,\mu $) in the current model and in the Standard Model. More...

virtual double	BrHZgamumuRatio () const
	The ratio of the Br $(H\to Z\gamma\to \mu\mu\gamma)$ in the current model and in the Standard Model. More...

virtual double	BrHZgaRatio () const
	The ratio of the Br $(H\to Z\gamma)$ in the current model and in the Standard Model. More...

virtual double	BrHZZ2e2muRatio () const
	The ratio of the Br $(H\to ZZ* \to 2e 2\mu)$ in the current model and in the Standard Model. More...

virtual double	BrHZZ4eRatio () const
	The ratio of the Br $(H\to ZZ* \to 4e)$ in the current model and in the Standard Model. More...

virtual double	BrHZZ4lRatio () const
	The ratio of the Br $(H\to ZZ* \to 4l)$ ( $l=e,\mu $) in the current model and in the Standard Model. More...

virtual double	BrHZZ4muRatio () const
	The ratio of the Br $(H\to ZZ* \to 4\mu)$ in the current model and in the Standard Model. More...

virtual double	BrHZZRatio () const
	The ratio of the Br $(H\to ZZ)$ in the current model and in the Standard Model. More...

virtual double	cbminuscc () const
	The value of $c_b - c_c$. More...

virtual double	cbminusctau () const
	The value of $c_b - c_\tau$. More...

virtual double	ccminusctau () const
	The value of $c_c - c_\tau$. More...

virtual double	cgaplusct () const
	The value of $c_\gamma + c_t$. More...

virtual double	cgminuscga () const
	The value of $c_g - c_\gamma$. More...

virtual double	cgplusct () const
	The value of $c_g + c_t$. More...

virtual bool	CheckParameters (const std::map< std::string, double > &DPars)
	A method to check if all the mandatory parameters for HiggsChiral have been provided in model initialization. More...

virtual double	computeGammaTotalRatio () const
	The ratio of the $\Gamma(H)$ in the current model and in the Standard Model. More...

virtual double	cVpluscb () const
	The value of $c_V + c_b$. More...

virtual double	cVplusctau () const
	The value of $c_V + c_\tau$. More...

virtual double	deltaG1_hWW () const
	The new physics contribution to the coupling of the effective interaction $H W_{\mu\nu}^\dagger W^{\mu\nu}$. More...

virtual double	deltaG1_hZA () const
	The new physics contribution to the coupling of the effective interaction $H Z_{\mu\nu} F^{\mu\nu}$. More...

virtual double	deltaG1_hZARatio () const
	The full new physics contribution to the coupling of the effective interaction $H Z_{\mu\nu} F^{A \mu\nu}$, including new local terms and modifications on the SM-loops. Normalized to the SM value. More...

virtual double	deltaG1_hZZ () const
	The new physics contribution to the coupling of the effective interaction $H Z_{\mu\nu} Z^{\mu\nu}$. More...

virtual double	deltaG2_hWW () const
	The new physics contribution to the coupling of the effective interaction $H W_{\nu}^\dagger \partial^\mu W^{\mu\nu}$. More...

virtual double	deltaG2_hZA () const
	The new physics contribution to the coupling of the effective interaction $H Z_{\nu} \partial^\mu F^{\mu\nu}$. More...

virtual double	deltaG2_hZZ () const
	The new physics contribution to the coupling of the effective interaction $H Z_{\nu} \partial^\mu Z^{\mu\nu}$. More...

virtual double	deltaG3_hWW () const
	The new physics contribution to the coupling of the effective interaction $H W_{\mu}^\dagger W^{\mu}$. More...

virtual double	deltaG3_hZZ () const
	The new physics contribution to the coupling of the effective interaction $H Z_{\mu} Z^{\mu}$. More...

virtual double	deltaG_hAA () const
	The new physics contribution to the coupling of the effective interaction $H F_{\mu\nu} F^{\mu\nu}$. More...

virtual double	deltaG_hAARatio () const
	The full new physics contribution to the coupling of the effective interaction $H F_{\mu\nu} F^{\mu\nu}$, including new local terms and modifications on the SM-loops. Normalized to the SM value. More...

virtual gslpp::complex	deltaG_hff (const Particle p) const
	The new physics contribution to the coupling of the effective interaction $H f\bar{f}$. More...

virtual double	deltaG_hgg () const
	The new physics contribution to the coupling of the effective interaction $H G_{\mu\nu}^AG^{A \mu\nu}$. More...

virtual double	deltaG_hggRatio () const
	The full new physics contribution to the coupling of the effective interaction $H G_{\mu\nu}^AG^{A \mu\nu}$, including new local terms and modifications on the SM-loops. Normalized to the SM value. More...

virtual double	Gammabb () const
	The decay width $(H\to b \bar{b})$ in the current model. More...

virtual double	Gammacc () const
	The decay width $(H\to c \bar{c})$ in the current model. More...

virtual double	Gammagaga () const
	The decay width $(H\to \gamma\gamma)$ in the current model. More...

virtual double	Gammagg () const
	The decay width $(H\to gg)$ in the current model. More...

virtual double	Gammamumu () const
	The decay width $(H\to \mu^+ \mu^-)$ in the current model. More...

virtual double	Gammatautau () const
	The decay width $(H\to \tau^+ \tau^-)$ in the current model. More...

virtual double	GammaTotal () const
	The total decay width of the Higgs boson in the current model. More...

virtual double	GammaWW () const
	The decay width $(H\to WW)$ in the current model. More...

virtual double	GammaZga () const
	The decay width $(H\to Z\gamma)$ in the current model. More...

virtual double	GammaZZ () const
	The decay width $(H\to ZZ)$ in the current model. More...

double	getcb () const
	a getter for the EFT coeff $c_b$ More...

double	getcc () const
	a getter for the EFT coeff $c_c$ More...

double	getcg () const
	a getter for the EFT coeff $c_g$ More...

double	getcga () const
	a getter for the EFT coeff $c_\gamma$ More...

double	getcmu () const
	a getter for the EFT coeff $c_\mu$ More...

double	getct () const
	a getter for the EFT coeff $c_t$ More...

double	getctau () const
	a getter for the EFT coeff $c_\tau$ More...

double	getcv () const
	a getter for the EFT coeff $c_V$ More...

double	getcZga () const
	a getter for the EFT coeff $c_{Z\gamma}$ More...

double	getexpZgaLimitATLAS () const
	a getter for the experimental value of the expected upper limit in $pp \to H \to Z\gamma$ from ATLAS More...

double	getexpZgaLimitATLAS13 () const
	a getter for the experimental value of the expected upper limit in $pp \to H \to Z\gamma$ from ATLAS at 13 TeV More...

double	getexpZgaLimitCMS () const
	a getter for the experimental value of the expected upper limit in $pp \to H \to Z\gamma$ from CMS More...

double	getexpZgaLimitCMS13 () const
	a getter for the experimental value of the expected upper limit in $pp \to H \to Z\gamma$ from CMS at 13 TeV More...

double	getobsZgaLimitATLAS () const
	a getter for the value of the observed upper limit in $pp \to H \to Z\gamma$ from ATLAS More...

double	getobsZgaLimitATLAS13 () const
	a getter for the value of the observed upper limit in $pp \to H \to Z\gamma$ from ATLAS at 13 TeV More...

double	getobsZgaLimitCMS () const
	a getter for the value of the observed upper limit in $pp \to H \to Z\gamma$ from CMS More...

double	getobsZgaLimitCMS13 () const
	a getter for the value of the observed upper limit in $pp \to H \to Z\gamma$ from CMS at 13 TeV More...

	HiggsChiral ()
	The default constructor. More...

virtual double	kappaAeff () const
	The effective coupling $\kappa_{A,eff}=\sqrt{\Gamma_{HAA}/\Gamma_{HAA}^{SM}}$. More...

virtual double	kappabeff () const
	The effective coupling $\kappa_{b,eff}=\sqrt{\Gamma_{Hbb}/\Gamma_{Hbb}^{SM}}$. More...

virtual double	kappaceff () const
	The effective coupling $\kappa_{c,eff}=\sqrt{\Gamma_{Hcc}/\Gamma_{Hcc}^{SM}}$. More...

virtual double	kappaGeff () const
	The effective coupling $\kappa_{G,eff}=\sqrt{\Gamma_{HGG}/\Gamma_{HGG}^{SM}}$. More...

virtual double	kappamueff () const
	The effective coupling $\kappa_{\mu,eff}=\sqrt{\Gamma_{H\mu\mu}/\Gamma_{H\mu\mu}^{SM}}$. More...

virtual double	kappataueff () const
	The effective coupling $\kappa_{\tau,eff}=\sqrt{\Gamma_{H\tau\tau}/\Gamma_{H\tau\tau}^{SM}}$. More...

virtual double	kappaWeff () const
	The effective coupling $\kappa_{W,eff}=\sqrt{\Gamma_{HWW}/\Gamma_{HWW}^{SM}}$. More...

virtual double	kappaZAeff () const
	The effective coupling $\kappa_{ZA,eff}=\sqrt{\Gamma_{HZA}/\Gamma_{HZA}^{SM}}$. More...

virtual double	kappaZeff () const
	The effective coupling $\kappa_{Z,eff}=\sqrt{\Gamma_{HZZ}/\Gamma_{HZZ}^{SM}}$. More...

virtual double	mueeHvv (const double sqrt_s) const
	The ratio $\mu_{e^+e^- \to H\nu\bar{\nu}}$ between the $ e^+e^- \to H\nu\bar{\nu} $ associated production cross-section in the current model and in the Standard Model. More...

virtual double	mueeHvvPol (const double sqrt_s, const double Pol_em, const double Pol_ep) const
	The ratio $\mu_{e^+e^- \to H\nu\bar{\nu}}$ between the $ e^+e^- \to H\nu\bar{\nu} $ associated production cross-section in the current model and in the Standard Model. More...

virtual double	mueettH (const double sqrt_s) const
	The ratio $\mu_{eettH}$ between the $ e^{+}e^{-}\to t\bar{t} H $ production cross-section in the current model and in the Standard Model. More...

virtual double	mueettHPol (const double sqrt_s, const double Pol_em, const double Pol_ep) const
	The ratio $\mu_{eettH}$ between the $ e^{+}e^{-}\to t\bar{t} H $ production cross-section in the current model and in the Standard Model. More...

virtual double	mueeWBF (const double sqrt_s) const
	The ratio $\mu_{eeWBF}$ between the $ e^{+}e^{-}\to \nu\bar{\nu} H $ production cross-section in the current model and in the Standard Model. More...

virtual double	mueeWBFPol (const double sqrt_s, const double Pol_em, const double Pol_ep) const
	The ratio $\mu_{eeWBF}$ between the $ e^{+}e^{-}\to \nu\bar{\nu} H $ production cross-section in the current model and in the Standard Model. More...

virtual double	mueeZBF (const double sqrt_s) const
	The ratio $\mu_{eeZBF}$ between the $ e^{+}e^{-}\to e^{+}e^{-} H $ production cross-section in the current model and in the Standard Model. More...

virtual double	mueeZBFPol (const double sqrt_s, const double Pol_em, const double Pol_ep) const
	The ratio $\mu_{eeZBF}$ between the $ e^{+}e^{-}\to e^{+}e^{-} H $ production cross-section in the current model and in the Standard Model. More...

virtual double	mueeZH (const double sqrt_s) const
	The ratio $\mu_{eeZH}$ between the $e^{+}e^{-}\to ZH$ associated production cross-section in the current model and in the Standard Model. More...

virtual double	mueeZHPol (const double sqrt_s, const double Pol_em, const double Pol_ep) const
	The ratio $\mu_{eeZH}$ between the $ e^{+}e^{-}\to ZH $ associated production cross-section in the current model and in the Standard Model. More...

virtual double	mueeZllH (const double sqrt_s) const
	The ratio $\mu_{eeZH, Z \to e^+ e^-, \mu^+ \mu^-}$ between the $ e^{+}e^{-}\to ZH, Z \to e^+ e^-, \mu^+ \mu^- $ associated production cross-section in the current model and in the Standard Model. More...

virtual double	mueeZllHPol (const double sqrt_s, const double Pol_em, const double Pol_ep) const
	The ratio $\mu_{eeZH, Z \to e^+ e^-, \mu^+ \mu^-}$ between the $ e^{+}e^{-}\to ZH, Z \to e^+ e^-, \mu^+ \mu^- $ associated production cross-section in the current model and in the Standard Model. More...

virtual double	mueeZqqH (const double sqrt_s) const
	The ratio $\mu_{eeZH, Z \to q \bar{q}}$ between the $ e^{+}e^{-}\to ZH, Z \to q \bar{q} $ associated production cross-section in the current model and in the Standard Model. More...

virtual double	mueeZqqHPol (const double sqrt_s, const double Pol_em, const double Pol_ep) const
	The ratio $\mu_{eeZH, Z \to q \bar{q}}$ between the $ e^{+}e^{-}\to ZH, Z \to q \bar{q} $ associated production cross-section in the current model and in the Standard Model. More...

virtual double	muggH (const double sqrt_s) const
	The ratio $\mu_{ggH}$ between the gluon-gluon fusion Higgs production cross-section in the current model and in the Standard Model. More...

virtual double	muggHbb (const double sqrt_s) const
	The ratio $\mu_{ggH,bb}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model. More...

virtual double	muggHgaga (const double sqrt_s) const
	The ratio $\mu_{ggH,\gamma\gamma}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model. More...

virtual double	muggHgagaInt (const double sqrt_s) const
	The ratio $\mu_{ggH,\gamma\gamma}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model. Includes interference effects with the background, following arXiv:1704.08259. More...

virtual double	muggHmumu (const double sqrt_s) const
	The ratio $\mu_{ggH,\mu\mu}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model. More...

virtual double	muggHpttH (const double sqrt_s) const
	The ratio $\mu_{ggH+ttH}$ between the sum of gluon-gluon fusion and t-tbar-Higgs associated production cross-section in the current model and in the Standard Model. More...

virtual double	muggHtautau (const double sqrt_s) const
	The ratio $\mu_{ggH,\tau\tau}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model. More...

virtual double	muggHWW (const double sqrt_s) const
	The ratio $\mu_{ggH,WW}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model. More...

virtual double	muggHWW2l2v (const double sqrt_s) const
	The ratio $\mu_{ggH,WW\to 2l2\nu}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model. More...

virtual double	muggHZga (const double sqrt_s) const
	The ratio $\mu_{ggH,Z\gamma}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model. More...

virtual double	muggHZZ (const double sqrt_s) const
	The ratio $\mu_{ggH,ZZ}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model. More...

virtual double	muggHZZ4l (const double sqrt_s) const
	The ratio $\mu_{ggH,ZZ\to 4l}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model. More...

virtual double	muppHmumu (const double sqrt_s) const
	The ratio $\mu_{pp,bb}$ between the Higgs production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model. More...

virtual double	mutHq (const double sqrt_s) const
	The ratio $\mu_{tHq}$ between the t-q-Higgs associated production cross-section in the current model and in the Standard Model. More...

virtual double	muTHUggHbb (const double sqrt_s) const
	The ratio $\mu_{ggH,bb}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model. More...

virtual double	muTHUggHgaga (const double sqrt_s) const
	The ratio $\mu_{ggH,\gamma\gamma}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model. More...

virtual double	muTHUggHmumu (const double sqrt_s) const
	The ratio $\mu_{ggH,\mu\mu}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model. More...

virtual double	muTHUggHtautau (const double sqrt_s) const
	The ratio $\mu_{ggH,\tau\tau}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model. More...

virtual double	muTHUggHWW (const double sqrt_s) const
	The ratio $\mu_{ggH,WW}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model. More...

virtual double	muTHUggHWW2l2v (const double sqrt_s) const
	The ratio $\mu_{ggH,WW\to 2l2\nu}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model. More...

virtual double	muTHUggHZga (const double sqrt_s) const
	The ratio $\mu_{ggH,Z\gamma}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model. More...

virtual double	muTHUggHZgamumu (const double sqrt_s) const
	The ratio $\mu_{ggH,Z\gamma\to \gamma 2\mu}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $Z \gamma\to \gamma 2\mu$ in the current model and in the Standard Model. More...

virtual double	muTHUggHZZ (const double sqrt_s) const
	The ratio $\mu_{ggH,ZZ}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model. More...

virtual double	muTHUggHZZ4l (const double sqrt_s) const
	The ratio $\mu_{ggH,ZZ\to 4l}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model. More...

virtual double	muTHUggHZZ4mu (const double sqrt_s) const
	The ratio $\mu_{ggH,ZZ\to 4\mu}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $Z Z^*\to 4\mu$ in the current model and in the Standard Model. More...

virtual double	muTHUttHbb (const double sqrt_s) const
	The ratio $\mu_{ttH,bb}$ between the ttH production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model. More...

virtual double	muTHUttHgaga (const double sqrt_s) const
	The ratio $\mu_{ttH,\gamma\gamma}$ between the ttH production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model. More...

virtual double	muTHUttHmumu (const double sqrt_s) const
	The ratio $\mu_{ttH,\mu\mu}$ between the ttH production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model. More...

virtual double	muTHUttHtautau (const double sqrt_s) const
	The ratio $\mu_{ttH,\tau\tau}$ between the ttH production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model. More...

virtual double	muTHUttHWW (const double sqrt_s) const
	The ratio $\mu_{ttH,WW}$ between the ttH production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model. More...

virtual double	muTHUttHWW2l2v (const double sqrt_s) const
	The ratio $\mu_{ttH,WW\to 2l2\nu}$ between the ttH production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model. More...

virtual double	muTHUttHZga (const double sqrt_s) const
	The ratio $\mu_{ttH,Z\gamma}$ between the ttH production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model. More...

virtual double	muTHUttHZZ (const double sqrt_s) const
	The ratio $\mu_{ttH,ZZ}$ between the ttH production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model. More...

virtual double	muTHUttHZZ4l (const double sqrt_s) const
	The ratio $\mu_{ttH,ZZ\to 4l}$ between the ttH production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model. More...

virtual double	muTHUVBFBRinv (const double sqrt_s) const
	The ratio $\mu_{VBF}$ between the VBF production cross-section in the current model and in the Standard Model, multiplied by the total (SM+new physics) invisible decay branching ratio. More...

virtual double	muTHUVBFHbb (const double sqrt_s) const
	The ratio $\mu_{VBF,bb}$ between the VBF Higgs production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model. More...

virtual double	muTHUVBFHgaga (const double sqrt_s) const
	The ratio $\mu_{VBF,\gamma\gamma}$ between the VBF Higgs production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model. More...

virtual double	muTHUVBFHinv (const double sqrt_s) const
	The ratio $\mu_{VBF,inv}$ between the VBF production cross-section with subsequent decay into invisible states in the current model and in the Standard Model. More...

virtual double	muTHUVBFHmumu (const double sqrt_s) const
	The ratio $\mu_{VBF,\mu\mu}$ between the VBF Higgs production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model. More...

virtual double	muTHUVBFHtautau (const double sqrt_s) const
	The ratio $\mu_{VBF,\tau\tau}$ between the VBF Higgs production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model. More...

virtual double	muTHUVBFHWW (const double sqrt_s) const
	The ratio $\mu_{VBF,WW}$ between the VBF Higgs production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model. More...

virtual double	muTHUVBFHWW2l2v (const double sqrt_s) const
	The ratio $\mu_{VBF,WW\to 2l2\nu}$ between the VBF Higgs production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model. More...

virtual double	muTHUVBFHZga (const double sqrt_s) const
	The ratio $\mu_{VBF,Z\gamma}$ between the VBF Higgs production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model. More...

virtual double	muTHUVBFHZZ (const double sqrt_s) const
	The ratio $\mu_{VBF,ZZ}$ between the VBF Higgs production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model. More...

virtual double	muTHUVBFHZZ4l (const double sqrt_s) const
	The ratio $\mu_{VBF,ZZ\to 4l}$ between the VBF Higgs production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model. More...

virtual double	muTHUVHbb (const double sqrt_s) const
	The ratio $\mu_{VH,bb}$ between the VH production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model. More...

virtual double	muTHUVHBRinv (const double sqrt_s) const
	The ratio $\mu_{VH}$ between the VH production cross-section in the current model and in the Standard Model, multiplied by the total (SM+new physics) invisible decay branching ratio. More...

virtual double	muTHUVHgaga (const double sqrt_s) const
	The ratio $\mu_{VH,\gamma\gamma}$ between the VH production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model. More...

virtual double	muTHUVHinv (const double sqrt_s) const
	The ratio $\mu_{VH,inv}$ between the VH production cross-section with subsequent decay into invisible states in the current model and in the Standard Model. More...

virtual double	muTHUVHmumu (const double sqrt_s) const
	The ratio $\mu_{VH,\mu\mu}$ between the VH production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model. More...

virtual double	muTHUVHtautau (const double sqrt_s) const
	The ratio $\mu_{VH,\tau\tau}$ between the VH production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model. More...

virtual double	muTHUVHWW (const double sqrt_s) const
	The ratio $\mu_{VH,WW}$ between the VH production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model. More...

virtual double	muTHUVHWW2l2v (const double sqrt_s) const
	The ratio $\mu_{VH,WW\to 2l2\nu}$ between the VH production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model. More...

virtual double	muTHUVHZga (const double sqrt_s) const
	The ratio $\mu_{VH,Z\gamma}$ between the VH production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model. More...

virtual double	muTHUVHZZ (const double sqrt_s) const
	The ratio $\mu_{VH,ZZ}$ between the VH production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model. More...

virtual double	muTHUVHZZ4l (const double sqrt_s) const
	The ratio $\mu_{VH,ZZ\to 4l}$ between the VH production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model. More...

virtual double	muTHUWHbb (const double sqrt_s) const
	The ratio $\mu_{WH,bb}$ between the WH production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model. More...

virtual double	muTHUWHgaga (const double sqrt_s) const
	The ratio $\mu_{WH,\gamma\gamma}$ between the WH production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model. More...

virtual double	muTHUWHmumu (const double sqrt_s) const
	The ratio $\mu_{WH,\mu\mu}$ between the WH production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model. More...

virtual double	muTHUWHtautau (const double sqrt_s) const
	The ratio $\mu_{WH,\tau\tau}$ between the WH production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model. More...

virtual double	muTHUWHWW (const double sqrt_s) const
	The ratio $\mu_{WH,WW}$ between the WH production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model. More...

virtual double	muTHUWHWW2l2v (const double sqrt_s) const
	The ratio $\mu_{WH,WW\to 2l2\nu}$ between the WH production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model. More...

virtual double	muTHUWHZga (const double sqrt_s) const
	The ratio $\mu_{WH,Z\gamma}$ between the WH production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model. More...

virtual double	muTHUWHZZ (const double sqrt_s) const
	The ratio $\mu_{WH,ZZ}$ between the WH production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model. More...

virtual double	muTHUWHZZ4l (const double sqrt_s) const
	The ratio $\mu_{WH,ZZ\to 4l}$ between the WH production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model. More...

virtual double	muTHUZHbb (const double sqrt_s) const
	The ratio $\mu_{ZH,bb}$ between the ZH production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model. More...

virtual double	muTHUZHgaga (const double sqrt_s) const
	The ratio $\mu_{ZH,\gamma\gamma}$ between the ZH production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model. More...

virtual double	muTHUZHmumu (const double sqrt_s) const
	The ratio $\mu_{ZH,\mu\mu}$ between the ZH production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model. More...

virtual double	muTHUZHtautau (const double sqrt_s) const
	The ratio $\mu_{ZH,\tau\tau}$ between the ZH production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model. More...

virtual double	muTHUZHWW (const double sqrt_s) const
	The ratio $\mu_{ZH,WW}$ between the ZH production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model. More...

virtual double	muTHUZHWW2l2v (const double sqrt_s) const
	The ratio $\mu_{ZH,WW\to 2l2\nu}$ between the ZH production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model. More...

virtual double	muTHUZHZga (const double sqrt_s) const
	The ratio $\mu_{ZH,Z\gamma}$ between the ZH production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model. More...

virtual double	muTHUZHZZ (const double sqrt_s) const
	The ratio $\mu_{ZH,ZZ}$ between the ZH production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model. More...

virtual double	muTHUZHZZ4l (const double sqrt_s) const
	The ratio $\mu_{ZH,ZZ\to 4l}$ between the ZH production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model. More...

virtual double	muttH (const double sqrt_s) const
	The ratio $\mu_{ttH}$ between the t-tbar-Higgs associated production cross-section in the current model and in the Standard Model. More...

virtual double	muttHbb (const double sqrt_s) const
	The ratio $\mu_{ttH,bb}$ between the ttH production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model. More...

virtual double	muttHgaga (const double sqrt_s) const
	The ratio $\mu_{ttH,\gamma\gamma}$ between the ttH production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model. More...

virtual double	muttHmumu (const double sqrt_s) const
	The ratio $\mu_{ttH,\mu\mu}$ between the ttH production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model. More...

virtual double	muttHtautau (const double sqrt_s) const
	The ratio $\mu_{ttH,\tau\tau}$ between the ttH production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model. More...

virtual double	muttHWW (const double sqrt_s) const
	The ratio $\mu_{ttH,WW}$ between the ttH production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model. More...

virtual double	muttHWW2l2v (const double sqrt_s) const
	The ratio $\mu_{ttH,WW\to 2l2\nu}$ between the ttH production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model. More...

virtual double	muttHZga (const double sqrt_s) const
	The ratio $\mu_{ttH,Z\gamma}$ between the ttH production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model. More...

virtual double	muttHZZ (const double sqrt_s) const
	The ratio $\mu_{ttH,ZZ}$ between the ttH production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model. More...

virtual double	muttHZZ4l (const double sqrt_s) const
	The ratio $\mu_{ttH,ZZ\to 4l}$ between the ttH production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model. More...

virtual double	muVBF (const double sqrt_s) const
	The ratio $\mu_{VBF}$ between the vector-boson fusion Higgs production cross-section in the current model and in the Standard Model. More...

virtual double	muVBFgamma (const double sqrt_s) const
	The ratio $\mu_{VBF+\gamma}$ between the vector-boson fusion Higgs production cross-section in association with a hard photon in the current model and in the Standard Model. More...

virtual double	muVBFHbb (const double sqrt_s) const
	The ratio $\mu_{VBF,bb}$ between the VBF Higgs production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model. More...

virtual double	muVBFHgaga (const double sqrt_s) const
	The ratio $\mu_{VBF,\gamma\gamma}$ between the VBF Higgs production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model. More...

virtual double	muVBFHmumu (const double sqrt_s) const
	The ratio $\mu_{VBF,\mu\mu}$ between the VBF Higgs production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model. More...

virtual double	muVBFHtautau (const double sqrt_s) const
	The ratio $\mu_{VBF,\tau\tau}$ between the VBF Higgs production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model. More...

virtual double	muVBFHWW (const double sqrt_s) const
	The ratio $\mu_{VBF,WW}$ between the VBF Higgs production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model. More...

virtual double	muVBFHWW2l2v (const double sqrt_s) const
	The ratio $\mu_{VBF,WW\to 2l2\nu}$ between the VBF Higgs production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model. More...

virtual double	muVBFHZga (const double sqrt_s) const
	The ratio $\mu_{VBF,Z\gamma}$ between the VBF Higgs production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model. More...

virtual double	muVBFHZZ (const double sqrt_s) const
	The ratio $\mu_{VBF,ZZ}$ between the VBF Higgs production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model. More...

virtual double	muVBFHZZ4l (const double sqrt_s) const
	The ratio $\mu_{VBF,ZZ\to 4l}$ between the VBF Higgs production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model. More...

virtual double	muVBFpVH (const double sqrt_s) const
	The ratio $\mu_{VBF+VH}$ between the sum of VBF and WH+ZH associated production cross-section in the current model and in the Standard Model. More...

virtual double	muVH (const double sqrt_s) const
	The ratio $\mu_{VH}$ between the WH+ZH associated production cross-section in the current model and in the Standard Model. More...

virtual double	muVHbb (const double sqrt_s) const
	The ratio $\mu_{VH,bb}$ between the VH production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model. More...

virtual double	muVHgaga (const double sqrt_s) const
	The ratio $\mu_{VH,\gamma\gamma}$ between the VH production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model. More...

virtual double	muVHmumu (const double sqrt_s) const
	The ratio $\mu_{VH,\mu\mu}$ between the VH production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model. More...

virtual double	muVHtautau (const double sqrt_s) const
	The ratio $\mu_{VH,\tau\tau}$ between the VH production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model. More...

virtual double	muVHWW (const double sqrt_s) const
	The ratio $\mu_{VH,WW}$ between the VH production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model. More...

virtual double	muVHWW2l2v (const double sqrt_s) const
	The ratio $\mu_{VH,WW\to 2l2\nu}$ between the VH production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model. More...

virtual double	muVHZga (const double sqrt_s) const
	The ratio $\mu_{VH,Z\gamma}$ between the VH production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model. More...

virtual double	muVHZZ (const double sqrt_s) const
	The ratio $\mu_{VH,ZZ}$ between the VH production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model. More...

virtual double	muVHZZ4l (const double sqrt_s) const
	The ratio $\mu_{VH,ZZ\to 4l}$ between the VH production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model. More...

virtual double	muWH (const double sqrt_s) const
	The ratio $\mu_{WH}$ between the W-Higgs associated production cross-section in the current model and in the Standard Model. More...

virtual double	muWHbb (const double sqrt_s) const
	The ratio $\mu_{WH,bb}$ between the WH production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model. More...

virtual double	muWHgaga (const double sqrt_s) const
	The ratio $\mu_{WH,\gamma\gamma}$ between the WH production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model. More...

virtual double	muWHmumu (const double sqrt_s) const
	The ratio $\mu_{WH,\mu\mu}$ between the WH production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model. More...

virtual double	muWHtautau (const double sqrt_s) const
	The ratio $\mu_{WH,\tau\tau}$ between the WH production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model. More...

virtual double	muWHWW (const double sqrt_s) const
	The ratio $\mu_{WH,WW}$ between the WH production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model. More...

virtual double	muWHWW2l2v (const double sqrt_s) const
	The ratio $\mu_{WH,WW\to 2l2\nu}$ between the WH production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model. More...

virtual double	muWHZga (const double sqrt_s) const
	The ratio $\mu_{WH,Z\gamma}$ between the WH production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model. More...

virtual double	muWHZZ (const double sqrt_s) const
	The ratio $\mu_{WH,ZZ}$ between the WH production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model. More...

virtual double	muWHZZ4l (const double sqrt_s) const
	The ratio $\mu_{WH,ZZ\to 4l}$ between the WH production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model. More...

virtual double	muZH (const double sqrt_s) const
	The ratio $\mu_{ZH}$ between the Z-Higgs associated production cross-section in the current model and in the Standard Model. More...

virtual double	muZHbb (const double sqrt_s) const
	The ratio $\mu_{ZH,bb}$ between the ZH production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model. More...

virtual double	muZHgaga (const double sqrt_s) const
	The ratio $\mu_{ZH,\gamma\gamma}$ between the ZH production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model. More...

virtual double	muZHmumu (const double sqrt_s) const
	The ratio $\mu_{ZH,\mu\mu}$ between the ZH production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model. More...

virtual double	muZHtautau (const double sqrt_s) const
	The ratio $\mu_{ZH,\tau\tau}$ between the ZH production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model. More...

virtual double	muZHWW (const double sqrt_s) const
	The ratio $\mu_{ZH,WW}$ between the ZH production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model. More...

virtual double	muZHWW2l2v (const double sqrt_s) const
	The ratio $\mu_{ZH,WW\to 2l2\nu}$ between the ZH production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model. More...

virtual double	muZHZga (const double sqrt_s) const
	The ratio $\mu_{ZH,Z\gamma}$ between the ZH production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model. More...

virtual double	muZHZZ (const double sqrt_s) const
	The ratio $\mu_{ZH,ZZ}$ between the ZH production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model. More...

virtual double	muZHZZ4l (const double sqrt_s) const
	The ratio $\mu_{ZH,ZZ\to 4l}$ between the ZH production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model. More...

virtual double	obliqueS () const
	The oblique parameter $S$. More...

virtual double	obliqueT () const
	The oblique parameter $T$. More...

virtual double	obliqueU () const
	The oblique parameter $U$. More...

virtual bool	PostUpdate ()
	The post-update method for HiggsChiral. More...

virtual bool	setFlag (const std::string name, const bool value)
	A method to set a flag of HiggsChiral. More...

virtual double	UpperLimitZgammaA (const double sqrt_s) const
	Observable implementing the contribution to the likelihood from the upper limit in $pp \to H \to Z\gamma$ from ATLAS. More...

virtual double	UpperLimitZgammaA13 (const double sqrt_s) const
	Observable implementing the contribution to the likelihood from the upper limit in $pp \to H \to Z\gamma$ from ATLAS at 13 TeV. More...

virtual double	UpperLimitZgammaC (const double sqrt_s) const
	Observable implementing the contribution to the likelihood from the upper limit in $pp \to H \to Z\gamma$ from CMS. More...

virtual double	UpperLimitZgammaC13 (const double sqrt_s) const
	Observable implementing the contribution to the likelihood from the upper limit in $pp \to H \to Z\gamma$ from CMS at 13 TeV. More...

virtual	~HiggsChiral ()
	The default destructor. More...

Public Member Functions inherited from NPbase
virtual double	A_f (const Particle f) const
	The left-right asymmetry in $e^+e^-\to Z\to f \bar{f}$ at the $Z$-pole, $\mathcal{A}_f$. More...

virtual double	AFB (const Particle f) const
	The forward-backward asymmetry in $e^+e^-\to Z\to f \bar{f}$ at the $Z$-pole, $A^f_{FB}$. More...

virtual double	aPskPol (const double sqrt_s, const double Pol_em, const double Pol_ep) const
	the angular parameter $a$ from $\mu_{e^+e^- \to ZH}$ (arXiv:1708.09079 [hep-ph]). More...

virtual double	AuxObs_NP1 () const
	Auxiliary observable AuxObs_NP1. More...

virtual double	AuxObs_NP10 () const
	Auxiliary observable AuxObs_NP10. More...

virtual double	AuxObs_NP11 () const
	Auxiliary observable AuxObs_NP11. More...

virtual double	AuxObs_NP12 () const
	Auxiliary observable AuxObs_NP12. More...

virtual double	AuxObs_NP13 () const
	Auxiliary observable AuxObs_NP13. More...

virtual double	AuxObs_NP14 () const
	Auxiliary observable AuxObs_NP14. More...

virtual double	AuxObs_NP15 () const
	Auxiliary observable AuxObs_NP15. More...

virtual double	AuxObs_NP16 () const
	Auxiliary observable AuxObs_NP16. More...

virtual double	AuxObs_NP17 () const
	Auxiliary observable AuxObs_NP17. More...

virtual double	AuxObs_NP18 () const
	Auxiliary observable AuxObs_NP18. More...

virtual double	AuxObs_NP19 () const
	Auxiliary observable AuxObs_NP19. More...

virtual double	AuxObs_NP2 () const
	Auxiliary observable AuxObs_NP2. More...

virtual double	AuxObs_NP20 () const
	Auxiliary observable AuxObs_NP20. More...

virtual double	AuxObs_NP3 () const
	Auxiliary observable AuxObs_NP3. More...

virtual double	AuxObs_NP4 () const
	Auxiliary observable AuxObs_NP4. More...

virtual double	AuxObs_NP5 () const
	Auxiliary observable AuxObs_NP5. More...

virtual double	AuxObs_NP6 () const
	Auxiliary observable AuxObs_NP6. More...

virtual double	AuxObs_NP7 () const
	Auxiliary observable AuxObs_NP7. More...

virtual double	AuxObs_NP8 () const
	Auxiliary observable AuxObs_NP8. More...

virtual double	AuxObs_NP9 () const
	Auxiliary observable AuxObs_NP9. More...

virtual double	bPskPol (const double sqrt_s, const double Pol_em, const double Pol_ep) const
	the angular parameter $b$ from $\mu_{e^+e^- \to ZH}$ (arXiv:1708.09079 [hep-ph]). More...

virtual double	Br_H_exo () const
	The branching ratio of the of the Higgs into exotic particles. More...

virtual double	Br_H_inv () const
	The branching ratio of the of the Higgs into invisible particles. More...

virtual double	Br_H_inv_NP () const
	The branching ratio of the of the Higgs into invisible particles (only invisible new particles). More...

virtual double	BR_Zf (const Particle f) const
	The Branching ratio of the $Z$ boson into a given fermion pair, $BR_Z^{f}$. More...

virtual double	BrHvisRatio () const
	The ratio of the Br $(H\to visible)$ in the current model and in the Standard Model. More...

virtual double	BrHWlvRatio () const
	The ratio of the Br $(H\to W l\nu)$ ( $l=e,\mu $) in the current model and in the Standard Model. More...

virtual double	BrHZllRatio () const
	The ratio of the Br $(H\to Zll)$ ( $l=e,\mu $) in the current model and in the Standard Model. More...

virtual double	cgaga_HB () const
	The Higgs-basis coupling $c_{\gamma\gamma}$. (See LHCHXSWG-INT-2015-001 document.) More...

virtual double	cgg_HB () const
	The Higgs-basis coupling $c_{gg}$. (See LHCHXSWG-INT-2015-001 document.) More...

virtual double	cggEff_HB () const
	The effective Higgs-basis coupling $c_{gg}^{Eff}$. (Similar to cgg_HB but including modifications of SM loops.) (See arXiv: 1505.00046 [hep-ph] document.) More...

virtual double	cZBox_HB () const
	The Higgs-basis coupling $c_{z\Box}$. (See LHCHXSWG-INT-2015-001 document.) More...

virtual double	cZga_HB () const
	The Higgs-basis coupling $c_{z\gamma}$. (See LHCHXSWG-INT-2015-001 document.) More...

virtual double	cZZ_HB () const
	The Higgs-basis coupling $c_{zz}$. (See LHCHXSWG-INT-2015-001 document.) More...

virtual double	deltaA_f (const Particle f) const
	The new physics contribution to the left-right asymmetry in $e^+e^-\to Z\to f \bar{f}$ at the $Z$-pole, $\delta \mathcal{A}_f$. More...

virtual double	deltaAFB (const Particle f) const
	The new physics contribution to the forward-backward asymmetry in $e^+e^-\to Z\to f \bar{f}$ at the $Z$-pole, $\delta A^f_{FB}$. More...

virtual double	deltacZ_HB () const
	The Higgs-basis coupling $\delta c_z$. (See LHCHXSWG-INT-2015-001 document.) More...

virtual double	deltag1ZNP () const
	The new physics contribution to the anomalous triple gauge coupling $g_{1,Z}$. More...

virtual double	deltag1ZNPEff () const
	The new physics contribution to the effective anomalous triple gauge coupling $g_{1,Z}^{Eff}$ from arXiv: 1708.09079 [hep-ph]. More...

virtual double	deltaG_hhhRatio () const
	The new physics contribution to the Higgs self-coupling $ H H H$. Normalized to the SM value. More...

virtual double	deltaGA_f (const Particle f) const
	New physics contribution to the neutral-current axial-vector coupling $g_A^f$. More...

virtual double	deltaGamma_W () const
	The new physics contribution to the total decay width of the $W$ boson, $\delta \Gamma_W$. More...

virtual double	deltaGamma_Wff (const Particle fi, const Particle fj) const
	The new physics contribution to the decay width of the $W$ boson into a given fermion pair, $\delta \Gamma_Z^{f}$. More...

virtual double	deltaGamma_Z () const
	The new physics contribution to the total decay width of the $Z$ boson, $\delta \Gamma_Z$. More...

virtual double	deltaGamma_Zf (const Particle f) const
	The new physics contribution to the decay width of the $Z$ boson into a given fermion pair, $\delta \Gamma_Z^{f}$. More...

virtual double	deltaGamma_Zhad () const
	The new physics contribution to the hadronic decay width of the $Z$ boson, $\delta \Gamma_{Z,had}$. More...

virtual double	DeltaGF () const
	New physics contribution to the Fermi constant. More...

virtual gslpp::complex	deltaGL_Wff (const Particle pbar, const Particle p) const
	New physics contribution to the charged current coupling $W_\mu \bar{f_L}\gamma^mu f_L$. More...

virtual gslpp::complex	deltaGR_Wff (const Particle pbar, const Particle p) const
	New physics contribution to the charged current coupling $W_\mu \bar{f_R}\gamma^mu f_R$. More...

virtual double	deltaGV_f (const Particle f) const
	New physics contribution to the neutral-current vector coupling $g_V^f$. More...

virtual double	deltaKgammaNP () const
	The new physics contribution to the anomalous triple gauge coupling $\kappa_{\gamma}$. More...

virtual double	deltaKgammaNPEff () const
	The new physics contribution to the effective anomalous triple gauge coupling $\kappa_{\gamma}^{Eff}$ from arXiv: 1708.09079 [hep-ph]. More...

virtual double	deltaN_nu () const
	The new physics contribution to the number of neutrinos dervied from the $Z$ pole measurements. More...

virtual double	deltaR0_f (const Particle f) const
	The new physics contribution to the ratio $R_\ell^0=\Gamma_{\mathrm{had}}/\Gamma_\ell$, $R_q^0=\Gamma_q/\Gamma_{\mathrm{had}}$ and $R_\nu^0=\Gamma_\nu/\Gamma_{\mathrm{had}}$, for charged leptons, quarks and neutrinos, respectively. More...

virtual double	deltaR_inv () const
	The new physics contribution to the ratio of invisible and leptonic (electron) decay widths of the $Z$ boson, $\delta R_{inv}$. More...

virtual double	deltaSigmaHadron () const
	The new physics contribution to the cross section for the process $e^+ e^-\to Z\to \mathrm{hadrons}$ at the $Z$ pole, $\delta \sigma_h^0$. More...

virtual double	deltaSin2thetaEff_e () const
	The new physics contribution to the effective electron/leptonic weak angle $\delta \sin^2\theta_{\rm eff}^{\rm lept}$ at the $Z$ pole. More...

virtual double	deltaSin2thetaEff_mu () const
	The new physics contribution to the effective muonic weak angle $\delta \sin^2\theta_{\rm eff}^{\mu\mu}$ at the $Z$ pole. More...

virtual double	deltayb_HB () const
	The Higgs-basis coupling $\delta y_b$. (See LHCHXSWG-INT-2015-001 document.) More...

virtual double	deltayc_HB () const
	The Higgs-basis coupling $\delta y_c$. (See LHCHXSWG-INT-2015-001 document.) More...

virtual double	deltaymu_HB () const
	The Higgs-basis coupling $\delta y_\mu$. (See LHCHXSWG-INT-2015-001 document.) More...

virtual double	deltayt_HB () const
	The Higgs-basis coupling $\delta y_t$. (See LHCHXSWG-INT-2015-001 document.) More...

virtual double	deltaytau_HB () const
	The Higgs-basis coupling $\delta y_\tau$. (See LHCHXSWG-INT-2015-001 document.) More...

virtual double	dxseeWWdcos (const double sqrt_s, const double cos) const
	The differential distribution for $e^+ e^- \to W^+ W^- \to jj \ell \nu$, with $\ell= e, \mu$, as a function of the $W$ polar angle. More...

virtual double	dxseeWWdcosBin (const double sqrt_s, const double cos1, const double cos2) const
	The integral of differential distribution for $e^+ e^- \to W^+ W^- \to jj \ell \nu$, with $\ell= e, \mu$ in a given bin of the $W$ polar angle. More...

virtual gslpp::complex	gA_f (const Particle f) const
	The total (SM+NP) contribution to the neutral-current axial-vector coupling $g_A^f$. More...

virtual double	Gamma_had () const
	The hadronic decay width of the $Z$ boson, $\Gamma_{Z,had}$. More...

virtual double	Gamma_Z () const
	The total decay width of the $Z$ boson, $\Gamma_Z$. More...

virtual double	Gamma_Zf (const Particle f) const
	The decay width of the $Z$ boson into a given fermion pair, $\Gamma_Z^{f}$. More...

virtual double	GammaW () const
	The total width of the $W$ boson, $\Gamma_W$. More...

virtual double	GammaW (const Particle fi, const Particle fj) const
	A partial decay width of the $W$ boson decay into a SM fermion pair. More...

virtual StandardModel	getTrueSM () const
	A method to return a StandardModel object from NPbase. More...

virtual gslpp::complex	gV_f (const Particle f) const
	The total (SM+NP) contribution to the neutral-current vector coupling $g_V^f$. More...

virtual gslpp::complex	kappaZ_f (const Particle f) const
	The effective neutral-current coupling $\kappa_Z^f$ including SM plus NP contributions. More...

virtual double	lambdaZNP () const
	The new physics contribution to the anomalous triple gauge coupling $\lambda_{Z}$. More...

virtual double	lambz_HB () const
	The Higgs-basis coupling $\lambda_{z}$. (See LHCHXSWG-INT-2015-001 document.) More...

virtual double	mueeWW (const double sqrt_s) const
	The ratio $\mu_{eeWW}$ between the $ e^{+}e^{-}\to W^{+}W^{-} $ production cross-section in the current model and in the Standard Model. More...

virtual double	mueeWWPol (const double sqrt_s, const double Pol_em, const double Pol_ep) const
	The ratio $\mu_{eeWW}$ between the $ e^{+}e^{-}\to W^{+}W^{-} $ production cross-section in the current model and in the Standard Model. More...

virtual double	muepWBF (const double sqrt_s) const
	The ratio $\mu_{epWBF}$ between the $ e^{-} p\to \nu j H $ production cross-section in the current model and in the Standard Model. More...

virtual double	muepZBF (const double sqrt_s) const
	The ratio $\mu_{epZBF}$ between the $ e^{-} p\to e^{-} j H $ production cross-section in the current model and in the Standard Model. More...

virtual double	muggHH (const double sqrt_s) const
	The ratio $\mu_{ggHH}$ between the gluon-gluon fusion di-Higgs production cross-section in the current model and in the Standard Model. More...

virtual double	mummH (const double sqrt_s) const
	The ratio $\mu_{\mu\mu H}$ between the $\sigma(\mu \mu \to H)}$ production cross-section in the current model and in the Standard Model. More...

virtual double	muppHZga (const double sqrt_s) const

virtual double	mupTVppWZ (const double sqrt_s, const double pTV1, const double pTV2) const
	The number of events in $ p p \to WZ$ in a given $p_{TV}$ bin, normalized to the SM prediction. From arXiv: 1712.01310 [hep-ph] and private communication. Implemented only in NPSMEFTd6 class. More...

virtual double	muttHZbbboost (const double sqrt_s) const
	The ratio $\sigma(ttH)/\sigma(ttZ)$ in the $H,Z\to b\bar{b}$ channel in the current model and in the Standard Model. More...

virtual double	Mw () const
	The mass of the $W$ boson, $M_W$. More...

virtual double	N_nu () const
	The number of neutrinos dervied from the $Z$ pole measurements, $N_{\nu}$. More...

	NPbase ()
	The default constructor. More...

virtual double	obliqueW () const
	The oblique parameter $W$. More...

virtual double	obliqueY () const
	The oblique parameter $Y$. More...

virtual double	ppZHprobe (const double sqrt_s) const
	The direction constrained by $ p p \to Z H$ in the boosted regime, $g_p^Z$. From arXiv:1807.01796 and the contribution to FCC CDR Vol 1. Implemented only in NPSMEFTd6 class. More...

virtual double	R0_f (const Particle f) const
	The ratio $R_\ell^0=\Gamma_{\mathrm{had}}/\Gamma_\ell$, $R_q^0=\Gamma_q/\Gamma_{\mathrm{had}}$ and $R_\nu^0=\Gamma_\nu/\Gamma_{\mathrm{had}}$, for charged leptons, quarks and neutrinos, respectively. More...

virtual double	R_inv () const
	The ratio of the invisible and leptonic (electron) decay widths of the $Z$ boson, $R_{inv}$. More...

virtual gslpp::complex	rhoZ_f (const Particle f) const
	The effective neutral-current coupling $\rho_Z^f$ including SM plus NP contributions. More...

virtual double	sigma0_had () const
	The cross section for the process $e^+ e^-\to Z\to \mathrm{hadrons}$ at the $Z$ pole, $\sigma_h^0$. More...

virtual double	sin2thetaEff (const Particle f) const
	The leptonic effective weak mixing angle $\sin^2\theta_{\rm eff}^{\rm lept}$ at the the $Z$ pole. More...

virtual double	STXS_ggH0j (const double sqrt_s) const
	The STXS bin $gg \to H$. More...

virtual double	STXS_ggH1j_pTH_0_60 (const double sqrt_s) const
	The STXS bin $gg \to H$. More...

virtual double	STXS_ggH1j_pTH_120_200 (const double sqrt_s) const
	The STXS bin $gg \to H$. More...

virtual double	STXS_ggH1j_pTH_200 (const double sqrt_s) const
	The STXS bin $gg \to H$. More...

virtual double	STXS_ggH1j_pTH_60_120 (const double sqrt_s) const
	The STXS bin $gg \to H$. More...

virtual double	STXS_ggH2j_pTH_0_200 (const double sqrt_s) const
	The STXS bin $gg \to H$. More...

virtual double	STXS_ggH2j_pTH_0_60 (const double sqrt_s) const
	The STXS bin $gg \to H$. More...

virtual double	STXS_ggH2j_pTH_120_200 (const double sqrt_s) const
	The STXS bin $gg \to H$. More...

virtual double	STXS_ggH2j_pTH_200 (const double sqrt_s) const
	The STXS bin $gg \to H$. More...

virtual double	STXS_ggH2j_pTH_60_120 (const double sqrt_s) const
	The STXS bin $gg \to H$. More...

virtual double	STXS_ggH_VBFtopo_j3 (const double sqrt_s) const
	The STXS bin $gg \to H$. More...

virtual double	STXS_ggH_VBFtopo_j3v (const double sqrt_s) const
	The STXS bin $gg \to H$. More...

virtual double	STXS_qqHll_pTV_0_150 (const double sqrt_s) const
	The STXS bin $qq \to H \ell \ell$. More...

virtual double	STXS_qqHll_pTV_150_250 (const double sqrt_s) const
	The STXS bin $qq \to H \ell \ell$. More...

virtual double	STXS_qqHll_pTV_150_250_0j (const double sqrt_s) const
	The STXS bin $qq \to H \ell \ell$. More...

virtual double	STXS_qqHll_pTV_150_250_1j (const double sqrt_s) const
	The STXS bin $qq \to H \ell \ell$. More...

virtual double	STXS_qqHll_pTV_250 (const double sqrt_s) const
	The STXS bin $qq \to H \ell \ell$. More...

virtual double	STXS_qqHlv_pTV_0_150 (const double sqrt_s) const
	The STXS bin $qq \to H \ell \nu$. More...

virtual double	STXS_qqHlv_pTV_0_250 (const double sqrt_s) const
	The STXS bin $qq \to H \ell \nu$. More...

virtual double	STXS_qqHlv_pTV_150_250_0j (const double sqrt_s) const
	The STXS bin $qq \to H \ell \nu$. More...

virtual double	STXS_qqHlv_pTV_150_250_1j (const double sqrt_s) const
	The STXS bin $qq \to H \ell \nu$. More...

virtual double	STXS_qqHlv_pTV_250 (const double sqrt_s) const
	The STXS bin $qq \to H \ell \nu$. More...

virtual double	STXS_qqHqq_pTj_200 (const double sqrt_s) const
	The STXS bin $qq \to H qq$. More...

virtual double	STXS_qqHqq_Rest (const double sqrt_s) const
	The STXS bin $qq \to H qq$. More...

virtual double	STXS_qqHqq_VBFtopo_j3 (const double sqrt_s) const
	The STXS bin $qq \to H qq$. More...

virtual double	STXS_qqHqq_VBFtopo_j3v (const double sqrt_s) const
	The STXS bin $qq \to H qq$. More...

virtual double	STXS_qqHqq_VBFtopo_Rest (const double sqrt_s) const
	The STXS bin $qq \to H qq$. More...

virtual double	STXS_qqHqq_VHtopo (const double sqrt_s) const
	The STXS bin $qq \to H qq$. More...

virtual double	STXS_ttHtH (const double sqrt_s) const
	The STXS bin $ ttH + tH $. More...

virtual double	STXS_WHqqHqq_pTj1_200 (const double sqrt_s) const
	The STXS bin $ qq \to WH \to H qq $. More...

virtual double	STXS_WHqqHqq_Rest (const double sqrt_s) const
	The STXS bin $ qq \to WH \to H qq $. More...

virtual double	STXS_WHqqHqq_VBFtopo_j3 (const double sqrt_s) const
	The STXS bin $ qq \to WH \to H qq $. More...

virtual double	STXS_WHqqHqq_VBFtopo_j3v (const double sqrt_s) const
	The STXS bin $ qq \to WH \to H qq $. More...

virtual double	STXS_WHqqHqq_VH2j (const double sqrt_s) const
	The STXS bin $ qq \to WH \to H qq $. More...

virtual double	STXS_ZHqqHqq_pTj1_200 (const double sqrt_s) const
	The STXS bin $ qq \to ZH \to H qq $. More...

virtual double	STXS_ZHqqHqq_Rest (const double sqrt_s) const
	The STXS bin $ qq \to ZH \to H qq $. More...

virtual double	STXS_ZHqqHqq_VBFtopo_j3 (const double sqrt_s) const
	The STXS bin $ qq \to ZH \to H qq $. More...

virtual double	STXS_ZHqqHqq_VBFtopo_j3v (const double sqrt_s) const
	The STXS bin $ qq \to ZH \to H qq $. More...

virtual double	STXS_ZHqqHqq_VH2j (const double sqrt_s) const
	The STXS bin $ qq \to ZH \to H qq $. More...

virtual bool	Update (const std::map< std::string, double > &DPars)
	The update method for NPbase. More...

virtual double	xseeWW (const double sqrt_s) const
	Total $e^+ e^- \to W^+ W^- \to jj \ell \nu$ cross section in pb, with $\ell= e, \mu$. More...

Public Member Functions inherited from StandardModel
double	Ale (double mu, orders order, bool Nf_thr=true) const
	The running electromagnetic coupling $\alpha_e(\mu)$ in the $\overline{MS}$ scheme. More...

double	ale_OS (const double mu, orders order=FULLNLO) const
	The running electromagnetic coupling $\alpha(\mu)$ in the on-shell scheme. More...

double	alphaMz () const
	The electromagnetic coupling at the $Z$-mass scale, $\alpha(M_Z^2)=\alpha/(1-\Delta\alpha(M_Z^2))$. More...

double	Als (double mu, orders order=FULLNLO, bool qed_flag=false, bool Nf_thr=true) const
	The running QCD coupling $\alpha(\mu)$ in the $\overline{MS}$ scheme including QED corrections. More...

double	AlsByOrder (double mu, orders order=FULLNLO, bool qed_flag=false, bool Nf_thr=true) const

double	Alstilde5 (const double mu) const
	The value of $\frac{\alpha_s^{\mathrm{FULLNLO}}}{4\pi}$ at any scale $\mu$ with the number of flavours $n_f = 4$ and full EW corrections. More...

double	Beta_e (int nm, unsigned int nf) const
	QED beta function coefficients - eq. (36) hep-ph/0512066. More...

double	Beta_s (int nm, unsigned int nf) const
	QCD beta function coefficients including QED corrections - eq. (36) hep-ph/0512066. More...

double	c02 () const
	The square of the cosine of the weak mixing angle $c_0^2$ defined without weak radiative corrections. More...

virtual bool	CheckFlags () const
	A method to check the sanity of the set of model flags. More...

bool	checkSMparamsForEWPO ()
	A method to check whether the parameters relevant to the EWPO are updated. More...

double	computeBrHtobb () const
	The Br $(H\to bb)$ in the Standard Model. More...

double	computeBrHtocc () const
	The Br $(H\to cc)$ in the Standard Model. More...

double	computeBrHtogaga () const
	The Br $(H\to\gamma\gamma)$ in the Standard Model. More...

double	computeBrHtogg () const
	The Br $(H\to gg)$ in the Standard Model. More...

double	computeBrHtomumu () const
	The Br $(H\to \mu\mu)$ in the Standard Model. More...

double	computeBrHtoss () const
	The Br $(H\to ss)$ in the Standard Model. More...

double	computeBrHtotautau () const
	The Br $(H\to \tau\tau)$ in the Standard Model. More...

double	computeBrHtoWW () const
	The Br $(H\to WW)$ in the Standard Model. More...

double	computeBrHtoZga () const
	The Br $(H\to Z\gamma)$ in the Standard Model. More...

double	computeBrHtoZZ () const
	The Br $(H\to ZZ)$ in the Standard Model. More...

double	computeBrHtoZZinv () const
	The Br $(H\to ZZ \to inv)$ in the Standard Model. More...

void	ComputeDeltaR_rem (const double Mw_i, double DeltaR_rem[orders_EW_size]) const
	A method to collect $\Delta r_{\mathrm{rem}}$ computed via subclasses. More...

void	ComputeDeltaRho (const double Mw_i, double DeltaRho[orders_EW_size]) const
	A method to collect $\Delta\rho$ computed via subclasses. More...

double	computeGammaHgaga_tt () const
	The top loop contribution to $H\to\gamma\gamma$ in the Standard Model. More...

double	computeGammaHgaga_tW () const
	The mixed $t-W$ loop contribution to $H\to\gamma\gamma$ in the Standard Model. More...

double	computeGammaHgaga_WW () const
	The $W$ loop contribution to $H\to\gamma\gamma$ in the Standard Model. More...

double	computeGammaHgg_bb () const
	The bottom loop contribution to $H\to gg$ in the Standard Model. More...

double	computeGammaHgg_tb () const
	The top-bottom interference contribution to $H\to gg$ in the Standard Model. More...

double	computeGammaHgg_tt () const
	The top loop contribution to $H\to gg$ in the Standard Model. More...

double	computeGammaHTotal () const
	The Higgs total width in the Standard Model. More...

double	computeGammaHZga_tt () const
	The top loop contribution to $H\to Z\gamma$ in the Standard Model. More...

double	computeGammaHZga_tW () const
	The mixed $t-W$ loop contribution to $H\to Z\gamma$ in the Standard Model. More...

double	computeGammaHZga_WW () const
	The $W$ loop contribution to $H\to Z\gamma$ in the Standard Model. Currently it returns the value of tab 41 in ref. [137]. More...

double	computeSigmaggH (const double sqrt_s) const
	The ggH cross section in the Standard Model. More...

double	computeSigmaggH_bb (const double sqrt_s) const
	The square of the bottom-quark contribution to the ggH cross section in the Standard Model. More...

double	computeSigmaggH_tb (const double sqrt_s) const
	The top-bottom interference contribution to the ggH cross section in the Standard Model. More...

double	computeSigmaggH_tt (const double sqrt_s) const
	The square of the top-quark contribution to the ggH cross section in the Standard Model. More...

double	computeSigmattH (const double sqrt_s) const
	The ttH production cross section in the Standard Model. More...

double	computeSigmaVBF (const double sqrt_s) const
	The VBF cross section in the Standard Model. More...

double	computeSigmaWF (const double sqrt_s) const
	The W fusion contribution $\sigma_{WF}$ to higgs-production cross section in the Standard Model. More...

double	computeSigmaWH (const double sqrt_s) const
	The WH production cross section in the Standard Model. More...

double	computeSigmaZF (const double sqrt_s) const
	The Z fusion contribution $\sigma_{ZF}$ to higgs-production cross section in the Standard Model. More...

double	computeSigmaZH (const double sqrt_s) const
	The ZH production cross section in the Standard Model. More...

double	computeSigmaZWF (const double sqrt_s) const
	The Z W interference fusion contribution $\sigma_{ZWF}$ to higgs-production cross section in the Standard Model. More...

virtual double	cW2 () const

virtual double	cW2 (const double Mw_i) const
	The square of the cosine of the weak mixing angle in the on-shell scheme, denoted as $c_W^2$. More...

double	DeltaAlpha () const
	The total corrections to the electromagnetic coupling $\alpha$ at the $Z$-mass scale, denoted as $\Delta\alpha(M_Z^2)$. More...

double	DeltaAlphaL5q () const
	The sum of the leptonic and the five-flavour hadronic corrections to the electromagnetic coupling $\alpha$ at the $Z$-mass scale, denoted as $\Delta\alpha^{\ell+5q}(M_Z^2)$. More...

double	DeltaAlphaLepton (const double s) const
	Leptonic contribution to the electromagnetic coupling $\alpha$, denoted as $\Delta\alpha_{\mathrm{lept}}(s)$. More...

double	DeltaAlphaTop (const double s) const
	Top-quark contribution to the electromagnetic coupling $\alpha$, denoted as $\Delta\alpha_{\mathrm{top}}(s)$. More...

virtual gslpp::complex	deltaKappaZ_f (const Particle f) const
	Flavour non-universal vertex corrections to $\kappa_Z^l$, denoted by $\Delta\kappa_Z^l$. More...

virtual double	DeltaR () const
	The SM prediction for $\Delta r$ derived from that for the $W$ boson mass. More...

virtual double	DeltaRbar () const
	The SM prediction for $\Delta \overline{r}$ derived from that for the $W$-boson mass. More...

virtual gslpp::complex	deltaRhoZ_f (const Particle f) const
	Flavour non-universal vertex corrections to $\rho_Z^l$, denoted by $\Delta\rho_Z^l$. More...

virtual double	epsilon1 () const
	The SM contribution to the epsilon parameter $\varepsilon_1$. More...

virtual double	epsilon2 () const
	The SM contribution to the epsilon parameter $\varepsilon_2$. More...

virtual double	epsilon3 () const
	The SM contribution to the epsilon parameter $\varepsilon_3$. More...

virtual double	epsilonb () const
	The SM contribution to the epsilon parameter $\varepsilon_b$. More...

virtual double	Gamma_inv () const
	The invisible partial decay width of the $Z$ boson, $\Gamma_{\mathrm{inv}}$. More...

virtual double	GammaZ (const Particle f) const
	The $Z\to \ell\bar{\ell}$ partial decay width, $\Gamma_\ell$. More...

double	getAle () const
	A get method to retrieve the fine-structure constant $\alpha$. More...

double	getAlsMz () const
	A get method to access the value of $\alpha_s(M_Z)$. More...

virtual double	getCBd () const
	The ratio of the absolute value of the $B_d$ mixing amplitude over the Standard Model value. More...

virtual double	getCBs () const
	The ratio of the absolute value of the $B_s$ mixing amplitude over the Standard Model value. More...

virtual double	getCCC1 () const
	A virtual implementation for the RealWeakEFTCC class. More...

virtual double	getCCC2 () const
	A virtual implementation for the RealWeakEFTCC class. More...

virtual double	getCCC3 () const
	A virtual implementation for the RealWeakEFTCC class. More...

virtual double	getCCC4 () const
	A virtual implementation for the RealWeakEFTCC class. More...

virtual double	getCCC5 () const
	A virtual implementation for the RealWeakEFTCC class. More...

virtual double	getCDMK () const
	The ratio of the real part of the $K$ mixing amplitude over the Standard Model value. More...

virtual double	getCepsK () const
	The ratio of the imaginary part of the $K$ mixing amplitude over the Standard Model value. More...

CKM	getCKM () const
	A get method to retrieve the member object of type CKM. More...

double	getDAle5Mz () const
	A get method to retrieve the five-flavour hadronic contribution to the electromagnetic coupling, $\Delta\alpha_{\mathrm{had}}^{(5)}(M_Z^2)$. More...

double	getDelGammaZ () const
	A get method to retrieve the theoretical uncertainty in $\Gamma_Z$, denoted as $\delta\,\Gamma_Z$. More...

double	getDelMw () const
	A get method to retrieve the theoretical uncertainty in $M_W$, denoted as $\delta\,M_W$. More...

double	getDelR0b () const
	A get method to retrieve the theoretical uncertainty in $R_b^0$, denoted as $\delta\,R_b^0$. More...

double	getDelR0c () const
	A get method to retrieve the theoretical uncertainty in $R_c^0$, denoted as $\delta\,R_c^0$. More...

double	getDelR0l () const
	A get method to retrieve the theoretical uncertainty in $R_l^0$, denoted as $\delta\,R_l^0$. More...

double	getDelSigma0H () const
	A get method to retrieve the theoretical uncertainty in $\sigma_{Hadron}^0$, denoted as $\delta\,\sigma_{Hadron}^0$. More...

double	getDelSin2th_b () const
	A get method to retrieve the theoretical uncertainty in $\sin^2\theta_{\rm eff}^{b}$, denoted as $\delta\sin^2\theta_{\rm eff}^{b}$. More...

double	getDelSin2th_l () const
	A get method to retrieve the theoretical uncertainty in $\sin^2\theta_{\rm eff}^{\rm lept}$, denoted as $\delta\sin^2\theta_{\rm eff}^{\rm lept}$. More...

double	getDelSin2th_q () const
	A get method to retrieve the theoretical uncertainty in $\sin^2\theta_{\rm eff}^{q\not = b,t}$, denoted as $\delta\sin^2\theta_{\rm eff}^{q\not = b,t}$. More...

std::string	getFlagKappaZ () const
	A method to retrieve the model flag KappaZ. More...

std::string	getFlagMw () const
	A method to retrieve the model flag Mw. More...

std::string	getFlagRhoZ () const
	A method to retrieve the model flag RhoZ. More...

const Flavour &	getFlavour () const

double	getGF () const
	A get method to retrieve the Fermi constant $G_\mu$. More...

int	getIterationNo () const

Particle	getLeptons (const QCD::lepton p) const
	A get method to retrieve the member object of a lepton. More...

virtual StandardModelMatching &	getMatching () const
	A get method to access the member reference of type StandardModelMatching. More...

virtual double	getMHl () const
	A get method to retrieve the Higgs mass $m_h$. More...

virtual double	getmq (const QCD::quark q, const double mu) const

double	getMuw () const
	A get method to retrieve the matching scale $\mu_W$ around the weak scale. More...

EWSMApproximateFormulae *	getMyApproximateFormulae () const
	A get method to retrieve the member pointer of type EWSMApproximateFormulae. More...

EWSMcache *	getMyEWSMcache () const
	A get method to retrieve the member pointer of type EWSMcache. More...

LeptonFlavour *	getMyLeptonFlavour () const

EWSMOneLoopEW *	getMyOneLoopEW () const
	A get method to retrieve the member pointer of type EWSMOneLoopEW,. More...

EWSMThreeLoopEW *	getMyThreeLoopEW () const

EWSMThreeLoopEW2QCD *	getMyThreeLoopEW2QCD () const

EWSMThreeLoopQCD *	getMyThreeLoopQCD () const

EWSMTwoLoopEW *	getMyTwoLoopEW () const

EWSMTwoLoopQCD *	getMyTwoLoopQCD () const

double	getMz () const
	A get method to access the mass of the $Z$ boson $M_Z$. More...

virtual double	getPhiBd () const
	Half the relative phase of the $B_d$ mixing amplitude w.r.t. the Standard Model one. More...

virtual double	getPhiBs () const
	Half the relative phase of the $B_s$ mixing amplitude w.r.t. the Standard Model one. More...

gslpp::matrix< gslpp::complex >	getUPMNS () const
	A get method to retrieve the object of the PMNS matrix. More...

gslpp::matrix< gslpp::complex >	getVCKM () const
	A get method to retrieve the CKM matrix. More...

gslpp::matrix< gslpp::complex >	getYd () const
	A get method to retrieve the Yukawa matrix of the down-type quarks, $Y_d$. More...

gslpp::matrix< gslpp::complex >	getYe () const
	A get method to retrieve the Yukawa matrix of the charged leptons, $Y_e$. More...

gslpp::matrix< gslpp::complex >	getYn () const
	A get method to retrieve the Yukawa matrix of the neutrinos, $Y_\nu$. More...

gslpp::matrix< gslpp::complex >	getYu () const
	A get method to retrieve the Yukawa matrix of the up-type quarks, $Y_u$. More...

virtual bool	Init (const std::map< std::string, double > &DPars)
	A method to initialize the model parameters. More...

virtual bool	InitializeModel ()
	A method to initialize the model. More...

bool	IsFlagNoApproximateGammaZ () const
	A method to retrieve the model flag NoApproximateGammaZ. More...

bool	IsFlagWithoutNonUniversalVC () const
	A method to retrieve the model flag WithoutNonUniversalVC. More...

virtual double	Mw_tree () const
	The tree-level mass of the $W$ boson, $M_W^{\mathrm{tree}}$. More...

double	MwbarFromMw (const double Mw) const
	A method to convert the $W$-boson mass in the experimental/running-width scheme to that in the complex-pole/fixed-width scheme. More...

double	MwFromMwbar (const double Mwbar) const
	A method to convert the $W$-boson mass in the complex-pole/fixed-width scheme to that in the experimental/running-width scheme. More...

double	Mzbar () const
	The $Z$-boson mass $\overline{M}_Z$ in the complex-pole/fixed-width scheme. More...

virtual bool	PreUpdate ()
	The pre-update method for StandardModel. More...

virtual double	rho_GammaW (const Particle fi, const Particle fj) const
	EW radiative corrections to the width of $W \to f_i \bar{f}_j$, denoted as $\rho^W_{ij}$. More...

double	s02 () const
	The square of the sine of the weak mixing angle $s_0^2$ defined without weak radiative corrections. More...

void	setFlagCacheInStandardModel (bool FlagCacheInStandardModel)
	A set method to change the model flag CacheInStandardModel of StandardModel. More...

void	setFlagNoApproximateGammaZ (bool FlagNoApproximateGammaZ)

virtual bool	setFlagStr (const std::string name, const std::string value)
	A method to set a flag of StandardModel. More...

	StandardModel ()
	The default constructor. More...

double	sW2 () const

virtual double	sW2 (const double Mw_i) const
	The square of the sine of the weak mixing angle in the on-shell scheme, denoted as $s_W^2$. More...

virtual double	v () const
	The Higgs vacuum expectation value. More...

virtual	~StandardModel ()
	The default destructor. More...

Public Member Functions inherited from QCD
double	AboveTh (const double mu) const
	The active flavour threshold above the scale $\mu$ as defined in QCD::Thresholds(). More...

void	addParameters (std::vector< std::string > params_i)
	A method to add parameters that are specific to only one set of observables. More...

virtual double	Als (const double mu, const orders order=FULLNLO, bool Nf_thr=true) const

double	Als4 (const double mu) const
	The value of $\alpha_s^{\mathrm{FULLNLO}}$ at any scale $\mu$ with the number of flavours $n_f = 4$. More...

virtual double	AlsByOrder (const double mu, const orders order=FULLNLO, bool Nf_thr=true) const

double	AlsOLD (const double mu, const orders order=FULLNLO) const
	Computes the running strong coupling $\alpha_s(\mu)$ in the $\overline{\mathrm{MS}}$ scheme. In the cases of LO, NLO and FULLNNLO, the coupling is computed with AlsWithInit(). On the other hand, in the cases of NNLO and FULLNNLO, the coupling is computed with AlsWithLambda(). More...

double	AlsWithInit (const double mu, const double alsi, const double mu_i, const orders order) const
	Computes the running strong coupling $\alpha_s(\mu)$ from $\alpha_s(\mu_i)$ in the $\overline{\mathrm{MS}}$ scheme, where it is forbidden to across a flavour threshold in the RG running from $\mu_i$ to $\mu$. More...

double	AlsWithLambda (const double mu, const orders order) const
	Computes the running strong coupling $\alpha_s(\mu)$ in the $\overline{\mathrm{MS}}$ scheme with the use of $\Lambda_{\rm QCD}$. More...

double	BelowTh (const double mu) const
	The active flavour threshold below the scale $\mu$ as defined in QCD::Thresholds(). More...

double	Beta0 (const double nf) const
	The $\beta_0(n_f)$ coefficient for a certain number of flavours $n_f$. More...

double	Beta1 (const double nf) const
	The $\beta_1(n_f)$ coefficient for a certain number of flavours $n_f$. More...

double	Beta2 (const double nf) const
	The $\beta_2(n_f)$ coefficient for a certain number of flavours $n_f$. More...

double	Beta3 (const double nf) const
	The $\beta_3(n_f)$ coefficient for a certain number of flavours $n_f$. More...

void	CacheShift (double cache[][5], int n) const
	A member used to manage the caching for this class. More...

void	CacheShift (int cache[][5], int n) const

orders	FullOrder (orders order) const
	Return the FULLORDER enum corresponding to order. More...

double	Gamma0 (const double nf) const
	The $\gamma_0$ coefficient used to compute the running of a mass. More...

double	Gamma1 (const double nf) const
	The $\gamma_1$ coefficient used to compute the running of a mass. More...

double	Gamma2 (const double nf) const
	The $\gamma_2$ coefficient used to compute the running of a mass. More...

double	getAlsM () const
	A get method to access the value of $\alpha_s(M_{\alpha_s})$. More...

BParameter	getBBd () const
	For getting the bag parameters corresponding to the operator basis $O_1 -O_5$ in $\Delta b = 2$ process in the $B_d$ meson system. More...

BParameter	getBBs () const
	For getting the bag parameters corresponding to the operator basis $O_1 -O_5$ in $\Delta b = 2$ process in the $B_s$ meson system. More...

BParameter	getBD () const
	For getting the bag parameters corresponding to the operator basis $O_1 -O_5$ in $\Delta c = 2$ process in the $D^0$ meson system. More...

BParameter	getBK () const
	For getting the bag parameters corresponding to the operator basis $O_1 -O_5$ in $\Delta s = 2$ process in the $K^0$ meson system. More...

BParameter	getBKd1 () const

BParameter	getBKd3 () const

double	getCF () const
	A get method to access the Casimir factor of QCD. More...

double	getMAls () const
	A get method to access the mass scale $M_{\alpha_s}$ at which the strong coupling constant measurement is provided. More...

Meson	getMesons (const QCD::meson m) const
	A get method to access a meson as an object of the type Meson. More...

double	getMtpole () const
	A get method to access the pole mass of the top quark. More...

double	getMub () const
	A get method to access the threshold between five- and four-flavour theory in GeV. More...

double	getMuc () const
	A get method to access the threshold between four- and three-flavour theory in GeV. More...

double	getMut () const
	A get method to access the threshold between six- and five-flavour theory in GeV. More...

double	getNc () const
	A get method to access the number of colours $N_c$. More...

double	getOptionalParameter (std::string name) const
	A method to get parameters that are specific to only one set of observables. More...

Particle	getQuarks (const QCD::quark q) const
	A get method to access a quark as an object of the type Particle. More...

std::vector< std::string >	getUnknownParameters ()
	A method to get the vector of the parameters that have been specified in the configuration file but not being used. More...

void	initializeBParameter (std::string name_i) const
	A method to initialize B Parameter and the corresponding meson. More...

void	initializeMeson (QCD::meson meson_i) const
	A method to initialize a meson. More...

double	logLambda (const double nf, orders order) const
	Computes $\ln\Lambda_\mathrm{QCD}$ with nf flavours in GeV. More...

double	Mbar2Mp (const double mbar, const orders order=FULLNNLO) const
	Converts the $\overline{\mathrm{MS}}$ mass $m(m)$ to the pole mass. More...

double	Mp2Mbar (const double mp, const orders order=FULLNNLO) const
	Converts a quark pole mass to the corresponding $\overline{\mathrm{MS}}$ mass $m(m)$. More...

double	Mrun (const double mu, const double m, const orders order=FULLNNLO) const
	Computes a running quark mass $m(\mu)$ from $m(m)$. More...

double	Mrun (const double mu_f, const double mu_i, const double m, const orders order=FULLNNLO) const
	Runs a quark mass from $\mu_i$ to $\mu_f$. More...

double	Mrun4 (const double mu_f, const double mu_i, const double m) const
	The running of a mass with the number of flavours $n_f = 4$. More...

double	MS2DRqmass (const double MSbar) const
	Converts a quark mass from the $\overline{\mathrm{MS}}$ scheme to the $\overline{\mathrm{DR}}$ scheme. More...

double	MS2DRqmass (const double MSscale, const double MSbar) const
	Converts a quark mass from the $\overline{\mathrm{MS}}$ scheme to the $\overline{\mathrm{DR}}$ scheme. More...

double	Nf (const double mu) const
	The number of active flavour at scale $\mu$. More...

double	NfThresholdCorrections (double mu, double M, double als, int nf, orders order) const
	Threshold corrections in matching $\alpha_s(n_f+1)$ with $\alpha_s(n_f)$ from eq. (34) of hep-ph/0512060. More...

std::string	orderToString (const orders order) const
	Converts an object of the enum type "orders" to the corresponding string. More...

	QCD ()
	Constructor. More...

void	setNc (double Nc)
	A set method to change the number of colours $N_c$. More...

void	setOptionalParameter (std::string name, double value)
	A method to set the parameter value for the parameters that are specific to only one set of observables. More...

double	Thresholds (const int i) const
	For accessing the active flavour threshold scales. More...

Public Member Functions inherited from Model
void	addMissingModelParameter (const std::string &missingParameterName)

std::vector< std::string >	getmissingModelParameters ()

unsigned int	getMissingModelParametersCount ()

std::string	getModelName () const
	A method to fetch the name of the model. More...

const double &	getModelParam (std::string name) const

bool	isModelGeneralTHDM () const

bool	isModelGeorgiMachacek () const

bool	IsModelInitialized () const
	A method to check if the model is initialized. More...

bool	isModelLinearized () const

bool	isModelParam (std::string name) const

bool	isModelSUSY () const

bool	isModelTHDM () const

bool	isModelTHDMW () const

bool	IsUpdateError () const
	A method to check if there was any error in the model update process. More...

	Model ()
	The default constructor. More...

void	raiseMissingModelParameterCount ()

void	setModelGeneralTHDM ()

void	setModelGeorgiMachacek ()

void	setModelInitialized (bool ModelInitialized)
	A set method to fix the failure or success of the initialization of the model. More...

void	setModelLinearized (bool linearized=true)

void	setModelName (const std::string name)
	A method to set the name of the model. More...

void	setModelSUSY ()

void	setModelTHDM ()

void	setModelTHDMW ()

void	setSliced (bool Sliced)

void	setUpdateError (bool UpdateError)
	A set method to fix the update status as success or failure. More...

virtual	~Model ()
	The default destructor. More...

Static Public Attributes
static const std::string	HChiralvars [NHChiralvars]
	A string array containing the labels of the model parameters in HiggsKvKf. More...

static const int	NHChiralvars = 17
	The number of the model parameters. More...

Static Public Attributes inherited from StandardModel
static const double	GeVminus2_to_nb = 389379.338

static const double	Mw_error = 0.00001
	The target accuracy of the iterative calculation of the $W$-boson mass in units of GeV. More...

static const int	NSMvars = 26
	The number of the model parameters in StandardModel. More...

static const int	NumSMParamsForEWPO = 33
	The number of the SM parameters that are relevant to the EW precision observables. More...

static std::string	SMvars [NSMvars]
	A string array containing the labels of the model parameters in StandardModel. More...

Static Public Attributes inherited from QCD
static const int	NQCDvars = 11
	The number of model parameters in QCD. More...

static std::string	QCDvars [NQCDvars]
	An array containing the labels under which all QCD parameters are stored in a vector of ModelParameter via InputParser::ReadParameters(). More...

Protected Member Functions
virtual double	computecb () const
	A method to compute the ratio of the $Hbb$ coupling in the current model and in the SM. More...

virtual double	computecc () const
	A method to compute the ratio of the $Hcc$ coupling in the current model and in the SM. More...

virtual double	computecg () const
	A method to compute the ratio of the $Hgg$ coupling in the current model and in the SM. More...

virtual double	computecgaga () const
	A method to compute the ratio of the $H\gamma\gamma$ coupling in the current model and in the SM. More...

virtual double	computecmu () const
	A method to compute the ratio of the $H\mu\mu$ coupling in the current model and in the SM. More...

virtual double	computect () const
	A method to compute the ratio of the $Htt$ coupling in the current model and in the SM. More...

virtual double	computectau () const
	A method to compute the ratio of the $H\tau\tau$ coupling in the current model and in the SM. More...

virtual double	computecV () const
	A method to compute the ratio of the $HVV$ coupling in the current model and in the SM. More...

virtual double	computecZga () const
	A method to compute the ratio of the $HZ\gamma$ coupling in the current model and in the SM. More...

virtual void	setParameter (const std::string name, const double &value)
	A method to set the value of a parameter of HiggsChiral. More...

Protected Member Functions inherited from StandardModel
bool	checkEWPOscheme (const std::string scheme) const
	A method to check if a given scheme name in string form is valid. More...

virtual void	computeCKM ()
	The method to compute the CKM matrix. More...

virtual void	computeYukawas ()
	The method to compute the Yukawa matrices. More...

double	Delta_EWQCD (const QCD::quark q) const
	The non-factorizable EW-QCD corrections to the partial widths for $Z\to q\bar{q}$, denoted as $\Delta_{\mathrm{EW/QCD}}$. More...

double	m_q (const QCD::quark q, const double mu, const orders order=FULLNLO) const

double	RAq (const QCD::quark q) const
	The radiator factor associated with the final-state QED and QCD corrections to the the axial-vector-current interactions, $R_A^q(M_Z^2)$. More...

double	resumKappaZ (const double DeltaRho[orders_EW_size], const double deltaKappa_rem[orders_EW_size], const double DeltaRbar_rem, const bool bool_Zbb) const
	A method to compute the real part of the effetvive coupling $\kappa_Z^f$ from $\Delta\rho$, $\delta\rho_{\rm rem}^{f}$ and $\Delta r_{\mathrm{rem}}$. More...

double	resumMw (const double Mw_i, const double DeltaRho[orders_EW_size], const double DeltaR_rem[orders_EW_size]) const
	A method to compute the $W$-boson mass from $\Delta\rho$ and $\Delta r_{\mathrm{rem}}$. More...

double	resumRhoZ (const double DeltaRho[orders_EW_size], const double deltaRho_rem[orders_EW_size], const double DeltaRbar_rem, const bool bool_Zbb) const
	A method to compute the real part of the effective coupling $\rho_Z^f$ from $\Delta\rho$, $\delta\rho_{\rm rem}^{f}$ and $\Delta r_{\mathrm{rem}}$. More...

double	RVh () const
	The singlet vector corrections to the hadronic $Z$-boson width, denoted as $R_V^h$. More...

double	RVq (const QCD::quark q) const
	The radiator factor associated with the final-state QED and QCD corrections to the the vector-current interactions, $R_V^q(M_Z^2)$. More...

double	SchemeToDouble (const std::string scheme) const
	A method to convert a given scheme name in string form into a floating-point number with double precision. More...

double	taub () const
	Top-mass corrections to the $Zb\bar{b}$ vertex, denoted by $\tau_b$. More...

Protected Member Functions inherited from QCD
double	MassOfNf (int nf) const
	The Mbar mass of the heaviest quark in the theory with Nf active flavour. More...

Private Member Functions
gslpp::complex	f_func (const double x) const

gslpp::complex	g_func (const double x) const

gslpp::complex	Int1 (const double tau, const double lambda) const

gslpp::complex	Int2 (const double tau, const double lambda) const

Private Attributes
double	cb

double	cc

double	cg

double	cg_loop

double	cga

double	cga_loop

double	cmu

double	ct

double	ctau

double	cv

double	cZga

double	cZga_loop

double	expZgaLimitATLAS

double	expZgaLimitATLAS13

double	expZgaLimitCMS

double	expZgaLimitCMS13

bool	FlagUniversalcf
	A boolean flag that is true if all cf take the same universal value. More...

bool	loopComputed

double	obsZgaLimitATLAS

double	obsZgaLimitATLAS13

double	obsZgaLimitCMS

double	obsZgaLimitCMS13

Additional Inherited Members
Public Types inherited from StandardModel
enum	LEP2RCs { Weak = 0, WeakBox, ISR, QEDFSR, QCDFSR, NUMofLEP2RCs }

enum	orders_EW { EW1 = 0, EW1QCD1, EW1QCD2, EW2, EW2QCD1, EW3, orders_EW_size }
	An enumerated type representing perturbative orders of radiative corrections to EW precision observables. More...

Public Types inherited from QCD
enum	lepton { NEUTRINO_1, ELECTRON, NEUTRINO_2, MU, NEUTRINO_3, TAU, NOLEPTON }
	An enum type for leptons. More...

enum	meson { P_0, P_P, K_0, K_P, D_0, D_P, B_D, B_P, B_S, B_C, PHI, K_star, K_star_P, D_star_P, RHO, RHO_P, OMEGA, MESON_END }
	An enum type for mesons. More...

enum	quark { UP, DOWN, CHARM, STRANGE, TOP, BOTTOM }
	An enum type for quarks. More...

Protected Attributes inherited from NPbase
StandardModel	trueSM

Protected Attributes inherited from StandardModel
double	A
	The CKM parameter $A$ in the Wolfenstein parameterization. More...

double	ale
	The fine-structure constant $\alpha$. More...

double	alpha21

double	alpha31

double	AlsMz
	The strong coupling constant at the Z-boson mass, $\alpha_s(M_Z)$. More...

double	dAle5Mz
	The five-flavour hadronic contribution to the electromagnetic coupling, $\Delta\alpha_{\mathrm{had}}^{(5)}(M_Z^2)$. More...

double	delGammaZ
	The theoretical uncertainty in $\Gamma_Z$, denoted as $\delta\,\Gamma_Z$, in GeV. More...

double	delMw
	The theoretical uncertainty in $M_W$, denoted as $\delta\,M_W$, in GeV. More...

double	delR0b
	The theoretical uncertainty in $R_b^0$, denoted as $\delta\,R_b^0$. More...

double	delR0c
	The theoretical uncertainty in $R_c^0$, denoted as $\delta\,R_c^0$. More...

double	delR0l
	The theoretical uncertainty in $R_l^0$, denoted as $\delta\,R_l^0$. More...

double	delsigma0H
	The theoretical uncertainty in $\sigma_{Hadron}^0$, denoted as $\delta\,\sigma_{Hadron}^0$ in nb. More...

double	delSin2th_b
	The theoretical uncertainty in $\sin^2\theta_{\rm eff}^{b}$, denoted as $\delta\sin^2\theta_{\rm eff}^{b}$. More...

double	delSin2th_l
	The theoretical uncertainty in $\sin^2\theta_{\rm eff}^{\rm lept}$, denoted as $\delta\sin^2\theta_{\rm eff}^{\rm lept}$. More...

double	delSin2th_q
	The theoretical uncertainty in $\sin^2\theta_{\rm eff}^{q\not = b,t}$, denoted as $\delta\sin^2\theta_{\rm eff}^{q\not = b,t}$. More...

double	delta

double	etab
	The CKM parameter $\bar{\eta}$ in the Wolfenstein parameterization. More...

bool	flag_order [orders_EW_size]
	An array of internal flags controlling the inclusions of higher-order corrections. More...

double	gamma
	$\gamma $ used as an input for FlagWolfenstein = FALSE More...

double	GF
	The Fermi constant $G_\mu$ in ${\rm GeV}^{-2}$. More...

double	lambda
	The CKM parameter $\lambda$ in the Wolfenstein parameterization. More...

Particle	leptons [6]
	An array of Particle objects for the leptons. More...

double	mHl
	The Higgs mass $m_h$ in GeV. More...

double	muw
	A matching scale $\mu_W$ around the weak scale in GeV. More...

CKM	myCKM
	An object of type CKM. More...

PMNS	myPMNS

double	Mz
	The mass of the $Z$ boson in GeV. More...

bool	requireCKM
	An internal flag to control whether the CKM matrix has to be recomputed. More...

bool	requireYe
	An internal flag to control whether the charged-lepton Yukawa matrix has to be recomputed. More...

bool	requireYn
	An internal flag to control whether the neutrino Yukawa matrix has to be recomputed. More...

double	rhob
	The CKM parameter $\bar{\rho}$ in the Wolfenstein parameterization. More...

double	s12

double	s13

double	s23

Flavour	SMFlavour
	An object of type Flavour. More...

Matching< StandardModelMatching, StandardModel >	SMM
	An object of type Matching. More...

double	Vcb
	$\vert V_{cb} \vert $ used as an input for FlagWolfenstein = FALSE More...

double	Vub
	$\vert V_{ub} \vert $ used as an input for FlagWolfenstein = FALSE More...

double	Vus
	$\vert V_{us} \vert $ used as an input for FlagWolfenstein = FALSE More...

gslpp::matrix< gslpp::complex >	Yd
	The Yukawa matrix of the down-type quarks. More...

gslpp::matrix< gslpp::complex >	Ye
	The Yukawa matrix of the charged leptons. More...

gslpp::matrix< gslpp::complex >	Yn
	The Yukawa matrix of the neutrinos. More...

gslpp::matrix< gslpp::complex >	Yu
	The Yukawa matrix of the up-type quarks. More...

Protected Attributes inherited from QCD
double	AlsM
	The strong coupling constant at the mass scale MAls, $\alpha_s(M_{\alpha_s})$. More...

double	CA

double	CF

bool	computemt
	Switch for computing the $\overline{\mathrm{MS}}$ mass of the top quark. More...

double	dAdA_NA

double	dFdA_NA

double	dFdF_NA

double	MAls
	The mass scale in GeV at which the strong coupling measurement is provided. More...

double	mtpole
	The pole mass of the top quark. More...

double	mub
	The threshold between five- and four-flavour theory in GeV. More...

double	muc
	The threshold between four- and three-flavour theory in GeV. More...

double	mut
	The threshold between six- and five-flavour theory in GeV. More...

double	NA

double	Nc
	The number of colours. More...

Particle	quarks [6]
	The vector of all SM quarks. More...

bool	requireYd
	Switch for generating the Yukawa couplings to the down-type quarks. More...

bool	requireYu
	Switch for generating the Yukawa couplings to the up-type quarks. More...

double	TF

Protected Attributes inherited from Model
bool	isSliced
	A boolean set to true if the current istance is a slice of an extended object. More...

std::map< std::string, std::reference_wrapper< const double > >	ModelParamMap

bool	UpdateError
	A boolean set to false if update is successful. More...

Constructor & Destructor Documentation

◆ HiggsChiral()

HiggsChiral::HiggsChiral ( )

The default constructor.

Definition at line 14 of file HiggsChiral.cpp.

 : NPbase()
 {    
     FlagUniversalcf = false;
     
     ModelParamMap.insert(std::make_pair("cv", std::cref(cv)));
     ModelParamMap.insert(std::make_pair("ct", std::cref(ct)));
     ModelParamMap.insert(std::make_pair("cb", std::cref(cb)));
     ModelParamMap.insert(std::make_pair("cc", std::cref(cc)));
     ModelParamMap.insert(std::make_pair("ctau", std::cref(ctau)));
     ModelParamMap.insert(std::make_pair("cmu", std::cref(cmu)));
     ModelParamMap.insert(std::make_pair("cg", std::cref(cg)));
     ModelParamMap.insert(std::make_pair("cga", std::cref(cga)));
     ModelParamMap.insert(std::make_pair("cZga", std::cref(cZga)));
     ModelParamMap.insert(std::make_pair("obsZgaLimitATLAS13", std::cref(obsZgaLimitATLAS13)));
     ModelParamMap.insert(std::make_pair("obsZgaLimitCMS13", std::cref(obsZgaLimitCMS13)));
     ModelParamMap.insert(std::make_pair("obsZgaLimitATLAS", std::cref(obsZgaLimitATLAS)));
     ModelParamMap.insert(std::make_pair("obsZgaLimitCMS", std::cref(obsZgaLimitCMS)));
     ModelParamMap.insert(std::make_pair("expZgaLimitATLAS13", std::cref(expZgaLimitATLAS13)));
     ModelParamMap.insert(std::make_pair("expZgaLimitCMS13", std::cref(expZgaLimitCMS13)));
     ModelParamMap.insert(std::make_pair("expZgaLimitATLAS", std::cref(expZgaLimitATLAS)));
     ModelParamMap.insert(std::make_pair("expZgaLimitCMS", std::cref(expZgaLimitCMS)));
     
     loopComputed = false;
     cg_loop = 0.;
     cga_loop = 0.;
     cZga_loop = 0.;
 }

◆ ~HiggsChiral()

virtual HiggsChiral::~HiggsChiral ( )

inlinevirtual

The default destructor.

Definition at line 115 of file HiggsChiral.h.

116 {};

Member Function Documentation

◆ BrHbbRatio()

double HiggsChiral::BrHbbRatio ( ) const

virtual

The ratio of the Br $(H\to b\bar{b})$ in the current model and in the Standard Model.

Returns: Br $(H\to b\bar{b})$/Br $(H\to b\bar{b})_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 648 of file HiggsChiral.cpp.

 {
 //    return Gammabb() / GammaTotal() / trueSM.computeBrHtobb();
     
     return (computecb() * computecb() / computeGammaTotalRatio());
 }

◆ BrHccRatio()

double HiggsChiral::BrHccRatio ( ) const

virtual

The ratio of the Br $(H\to c\bar{c})$ in the current model and in the Standard Model.

Returns: Br $(H\to c\bar{c})$/Br $(H\to c\bar{c})_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 641 of file HiggsChiral.cpp.

 {
 //    return Gammacc() / GammaTotal() / trueSM.computeBrHtocc();
     
     return (computecc() * computecc() / computeGammaTotalRatio());
 }

◆ BrHgagaRatio()

double HiggsChiral::BrHgagaRatio ( ) const

virtual

The ratio of the Br $(H\to \gamma\gamma)$ in the current model and in the Standard Model.

Returns: Br $(H\to \gamma\gamma)$/Br $(H\to \gamma\gamma)_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 620 of file HiggsChiral.cpp.

 {
 //    return Gammagaga() / GammaTotal() / trueSM.computeBrHtogaga();
     
     return (computecgaga() * computecgaga() / computeGammaTotalRatio());
 }

◆ BrHggRatio()

double HiggsChiral::BrHggRatio ( ) const

virtual

The ratio of the Br $(H\to gg)$ in the current model and in the Standard Model.

Returns: Br $(H\to gg)$/Br $(H\to gg)_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 536 of file HiggsChiral.cpp.

 {
 //    return Gammagg() / GammaTotal() / trueSM.computeBrHtogg();
     
     return (computecg() * computecg() / computeGammaTotalRatio());
 }

◆ BrHmumuRatio()

double HiggsChiral::BrHmumuRatio ( ) const

virtual

The ratio of the Br $(H\to \mu^+\mu^-)$ in the current model and in the Standard Model.

Returns: Br $(H\to \mu^+\mu^-)$/Br $(H\to \mu^+\mu^-)_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 627 of file HiggsChiral.cpp.

 {
 //    return Gammamumu() / GammaTotal() / trueSM.computeBrHtomumu();
     
     return (computecmu() * computecmu() / computeGammaTotalRatio());
 }

◆ BrHtautauRatio()

double HiggsChiral::BrHtautauRatio ( ) const

virtual

The ratio of the Br $(H\to \tau^+\tau^-)$ in the current model and in the Standard Model.

Returns: Br $(H\to \tau^+\tau^-)$/Br $(H\to \tau^+\tau^-)_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 634 of file HiggsChiral.cpp.

 {
 //    return Gammatautau() / GammaTotal() / trueSM.computeBrHtotautau();
     
     return (computectau() * computectau() / computeGammaTotalRatio());
 }

◆ BrHtoinvRatio()

double HiggsChiral::BrHtoinvRatio ( ) const

virtual

The ratio of the Br $(H\to invisible)$ in the current model and in the Standard Model.

Returns: Br $(H\to invisible)$/Br $(H\to ZZ \to invisible)_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 655 of file HiggsChiral.cpp.

 {
 //    No extra decays so it scales as the H->ZZ
     
     return BrHZZRatio();
 }

◆ BrHWW2l2vRatio()

double HiggsChiral::BrHWW2l2vRatio ( ) const

virtual

The ratio of the Br $(H\to WW^*\to l\nu l\nu)$ ( $l=e,\mu $) in the current model and in the Standard Model.

Returns: Br $(H\to WW^*\to l\nu l\nu)$/Br $(H\to WW^*\to l\nu l\nu)_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 550 of file HiggsChiral.cpp.

 {
 //    return GammaWW() / GammaTotal() / trueSM.computeBrHtoWW();
  
     return BrHWWRatio();
 }

◆ BrHWWRatio()

double HiggsChiral::BrHWWRatio ( ) const

virtual

The ratio of the Br $(H\to WW)$ in the current model and in the Standard Model.

Returns: Br $(H\to WW)$/Br $(H\to WW)_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 543 of file HiggsChiral.cpp.

 {
 //    return GammaWW() / GammaTotal() / trueSM.computeBrHtoWW();
  
     return (computecV() * computecV() / computeGammaTotalRatio());
 }

◆ BrHZgaeeRatio()

double HiggsChiral::BrHZgaeeRatio ( ) const

virtual

The ratio of the Br $(H\to Z\gamma\to ee\gamma)$ in the current model and in the Standard Model.

Returns: Br $(H\to Z\gamma\to ee\gamma)$/Br $(H\to Z\gamma\to ee\gamma)_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 606 of file HiggsChiral.cpp.

 {
 //    return GammaZga() / GammaTotal() / trueSM.computeBrHtoZga();
     
     return BrHZgaRatio();
 }

◆ BrHZgallRatio()

double HiggsChiral::BrHZgallRatio ( ) const

virtual

The ratio of the Br $(H\to Z\gamma\to ll\gamma)$ ( $l=e,\mu $) in the current model and in the Standard Model.

Returns: Br $(H\to Z\gamma\to ll\gamma)$/Br $(H\to Z\gamma\to ll\gamma)_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 599 of file HiggsChiral.cpp.

 {
 //    return GammaZga() / GammaTotal() / trueSM.computeBrHtoZga();
     
     return BrHZgaRatio();
 }

◆ BrHZgamumuRatio()

double HiggsChiral::BrHZgamumuRatio ( ) const

virtual

The ratio of the Br $(H\to Z\gamma\to \mu\mu\gamma)$ in the current model and in the Standard Model.

Returns: Br $(H\to Z\gamma\to \mu\mu\gamma)$/Br $(H\to Z\gamma\to \mu\mu\gamma)_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 613 of file HiggsChiral.cpp.

 {
 //    return GammaZga() / GammaTotal() / trueSM.computeBrHtoZga();
     
     return BrHZgaRatio();
 }

◆ BrHZgaRatio()

double HiggsChiral::BrHZgaRatio ( ) const

virtual

The ratio of the Br $(H\to Z\gamma)$ in the current model and in the Standard Model.

Returns: Br $(H\to Z\gamma)$/Br $(H\to Z\gamma)_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 592 of file HiggsChiral.cpp.

 {
 //    return GammaZga() / GammaTotal() / trueSM.computeBrHtoZga();
     
     return (computecZga() * computecZga() / computeGammaTotalRatio());
 }

◆ BrHZZ2e2muRatio()

double HiggsChiral::BrHZZ2e2muRatio ( ) const

virtual

The ratio of the Br $(H\to ZZ* \to 2e 2\mu)$ in the current model and in the Standard Model.

Returns: Br $(H\to ZZ* \to 2e 2\mu)$/Br $(H\to ZZ* \to 2e 2\mu)_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 578 of file HiggsChiral.cpp.

 {
 //    return GammaZZ() / GammaTotal() / trueSM.computeBrHtoZZ();
     
     return BrHZZRatio();
 }

◆ BrHZZ4eRatio()

double HiggsChiral::BrHZZ4eRatio ( ) const

virtual

The ratio of the Br $(H\to ZZ* \to 4e)$ in the current model and in the Standard Model.

Returns: Br $(H\to ZZ* \to 4e)$/Br $(H\to ZZ* \to 4e)_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 571 of file HiggsChiral.cpp.

 {
 //    return GammaZZ() / GammaTotal() / trueSM.computeBrHtoZZ();
     
     return BrHZZRatio();
 }

◆ BrHZZ4lRatio()

double HiggsChiral::BrHZZ4lRatio ( ) const

virtual

The ratio of the Br $(H\to ZZ* \to 4l)$ ( $l=e,\mu $) in the current model and in the Standard Model.

Returns: Br $(H\to ZZ* \to 4l)$/Br $(H\to ZZ* \to 4l)_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 564 of file HiggsChiral.cpp.

 {
 //    return GammaZZ() / GammaTotal() / trueSM.computeBrHtoZZ();
     
     return BrHZZRatio();
 }

◆ BrHZZ4muRatio()

double HiggsChiral::BrHZZ4muRatio ( ) const

virtual

The ratio of the Br $(H\to ZZ* \to 4\mu)$ in the current model and in the Standard Model.

Returns: Br $(H\to ZZ* \to 4\mu)$/Br $(H\to ZZ* \to 4\mu)_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 585 of file HiggsChiral.cpp.

 {
 //    return GammaZZ() / GammaTotal() / trueSM.computeBrHtoZZ();
     
     return BrHZZRatio();
 }

◆ BrHZZRatio()

double HiggsChiral::BrHZZRatio ( ) const

virtual

The ratio of the Br $(H\to ZZ)$ in the current model and in the Standard Model.

Returns: Br $(H\to ZZ)$/Br $(H\to ZZ)_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 557 of file HiggsChiral.cpp.

 {
 //    return GammaZZ() / GammaTotal() / trueSM.computeBrHtoZZ();
     
     return (computecV() * computecV() / computeGammaTotalRatio());
 }

◆ cbminuscc()

double HiggsChiral::cbminuscc ( ) const

virtual

The value of $c_b - c_c$.

Returns: $c_b - c_c$

Reimplemented from NPbase.

Definition at line 422 of file HiggsChiral.cpp.

 {
     return cb - cc;
 }

◆ cbminusctau()

double HiggsChiral::cbminusctau ( ) const

virtual

The value of $c_b - c_\tau$.

Returns: $c_b - c_\tau$

Reimplemented from NPbase.

Definition at line 427 of file HiggsChiral.cpp.

 {
     return cb - ctau;
 }

◆ ccminusctau()

double HiggsChiral::ccminusctau ( ) const

virtual

The value of $c_c - c_\tau$.

Returns: $c_c - c_\tau$

Reimplemented from NPbase.

Definition at line 432 of file HiggsChiral.cpp.

 {
     return cc - ctau;
 }

◆ cgaplusct()

double HiggsChiral::cgaplusct ( ) const

virtual

The value of $c_\gamma + c_t$.

Returns: $c_\gamma + c_t$

Reimplemented from NPbase.

Definition at line 402 of file HiggsChiral.cpp.

 {
     return cga + ct;
 }

◆ cgminuscga()

double HiggsChiral::cgminuscga ( ) const

virtual

The value of $c_g - c_\gamma$.

Returns: $c_g - c_\gamma$

Reimplemented from NPbase.

Definition at line 407 of file HiggsChiral.cpp.

 {
     return cg - cga;
 }

◆ cgplusct()

double HiggsChiral::cgplusct ( ) const

virtual

The value of $c_g + c_t$.

Returns: $c_g + c_t$

Reimplemented from NPbase.

Definition at line 397 of file HiggsChiral.cpp.

 {
     return cg + ct;
 }

◆ CheckParameters()

bool HiggsChiral::CheckParameters ( const std::map< std::string, double > & DPars )

virtual

A method to check if all the mandatory parameters for HiggsChiral have been provided in model initialization.

Parameters

[in] DPars a map of the parameters that are being updated in the Monte Carlo run (including parameters that are varied and those that are held constant)

Returns: a boolean that is true if the execution is successful

Reimplemented from StandardModel.

Definition at line 110 of file HiggsChiral.cpp.

 {
     for (int i = 0; i < NHChiralvars; i++) {
         if (DPars.find(HChiralvars[i]) == DPars.end()) {
             std::cout << "ERROR: missing mandatory HiggsChiral parameter " << HChiralvars[i] << std::endl;
             raiseMissingModelParameterCount();
             addMissingModelParameter(HChiralvars[i]);
         }
     }
     return (NPbase::CheckParameters(DPars));
 }

◆ computecb()

double HiggsChiral::computecb ( ) const

protectedvirtual

A method to compute the ratio of the $Hbb$ coupling in the current model and in the SM.

Returns: the ratio of the $Hbb$ coupling in the current model and in the SM

Definition at line 1472 of file HiggsChiral.cpp.

 {
     return cb;
 }

◆ computecc()

double HiggsChiral::computecc ( ) const

protectedvirtual

A method to compute the ratio of the $Hcc$ coupling in the current model and in the SM.

Returns: the ratio of the $Hcc$ coupling in the current model and in the SM

Definition at line 1462 of file HiggsChiral.cpp.

 {
     return cc;
 }

◆ computecg()

double HiggsChiral::computecg ( ) const

protectedvirtual

A method to compute the ratio of the $Hgg$ coupling in the current model and in the SM.

Returns: the ratio of the $Hgg$ coupling in the current model and in the SM

Definition at line 1341 of file HiggsChiral.cpp.

 {
     if (loopComputed) return cg_loop;
     
     double Mt=trueSM.getQuarks(QCD::TOP).getMass();
     double Mb=trueSM.getQuarks(QCD::BOTTOM).getMass();
     double Mc=trueSM.getQuarks(QCD::CHARM).getMass();
     double TAUt=4.0*Mt*Mt/(mHl*mHl);
     double TAUb=4.0*Mb*Mb/(mHl*mHl);
     double TAUc=4.0*Mc*Mc/(mHl*mHl);
     double cgEff;
  
     cgEff = ( ( ct * 0.5*TAUt*(1.0+(1.0-TAUt)*f_func(TAUt))
                      +cb * 0.5*TAUb*(1.0+(1.0-TAUb)*f_func(TAUb)) 
                      +cc * 0.5*TAUc*(1.0+(1.0-TAUc)*f_func(TAUc)) ) * (1.0+11.0*AlsMz/(4.0*M_PI))
                      +cg * 0.5 ).abs2();
  
     cgEff = cgEff / ( ( 0.5*TAUt*(1.0+(1.0-TAUt)*f_func(TAUt))
                      + 0.5*TAUb*(1.0+(1.0-TAUb)*f_func(TAUb))
                      + 0.5*TAUc*(1.0+(1.0-TAUc)*f_func(TAUc)) ) * (1.0+11.0*AlsMz/(4.0*M_PI))).abs2();
  
     return (sqrt(cgEff));
 }

◆ computecgaga()

double HiggsChiral::computecgaga ( ) const

protectedvirtual

A method to compute the ratio of the $H\gamma\gamma$ coupling in the current model and in the SM.

Returns: the ratio of the $H\gamma\gamma$ coupling in the current model and in the SM

Definition at line 1416 of file HiggsChiral.cpp.

 {
     if (loopComputed) return cga_loop;
     
     double Mt=trueSM.getQuarks(QCD::TOP).getMass();
     double Mb=trueSM.getQuarks(QCD::BOTTOM).getMass();
     double Mc=trueSM.getQuarks(QCD::CHARM).getMass();
     double Mtau=trueSM.getLeptons(StandardModel::TAU).getMass();
     double Mmu=trueSM.getLeptons(StandardModel::MU).getMass();
     double MW=trueSM.Mw_tree();
     double TAUt=4.0*Mt*Mt/(mHl*mHl);
     double TAUb=4.0*Mb*Mb/(mHl*mHl);
     double TAUc=4.0*Mc*Mc/(mHl*mHl);
     double TAUtau=4.0*Mtau*Mtau/(mHl*mHl);
     double TAUmu=4.0*Mmu*Mmu/(mHl*mHl);
     double TAUw=4.0*MW*MW/(mHl*mHl);
     double cgagaEff;
  
     cgagaEff = ( ct * (8./3.)*TAUt*(1.+(1.-TAUt)*f_func(TAUt)) * (1.0-AlsMz/M_PI)
                      +cb * (2./3.)*TAUb*(1.+(1.-TAUb)*f_func(TAUb))
                      +cc * (8./3.)*TAUc*(1.+(1.-TAUc)*f_func(TAUc))
                      +ctau * 2.0*TAUtau*(1.+(1.-TAUtau)*f_func(TAUtau))
                      +cmu * 2.0*TAUmu*(1.+(1.-TAUmu)*f_func(TAUmu))
                      -cv * (2.0+3.0*TAUw+3.0*TAUw*(2.0-TAUw)*f_func(TAUw))
                      +cga * 2.0 ).abs2();
     
     cgagaEff = cgagaEff / ( (8./3.)*TAUt*(1.+(1.-TAUt)*f_func(TAUt)) * (1.0-AlsMz/M_PI)
                      + (2./3.)*TAUb*(1.+(1.-TAUb)*f_func(TAUb))
                      + (8./3.)*TAUc*(1.+(1.-TAUc)*f_func(TAUc))
                      + 2.0*TAUtau*(1.+(1.-TAUtau)*f_func(TAUtau))
                      + 2.0*TAUmu*(1.+(1.-TAUmu)*f_func(TAUmu))
                      - (2.0+3.0*TAUw+3.0*TAUw*(2.0-TAUw)*f_func(TAUw)) ).abs2();
     
     return (sqrt(cgagaEff));
 }

◆ computecmu()

double HiggsChiral::computecmu ( ) const

protectedvirtual

A method to compute the ratio of the $H\mu\mu$ coupling in the current model and in the SM.

Returns: the ratio of the $H\mu\mu$ coupling in the current model and in the SM

Definition at line 1452 of file HiggsChiral.cpp.

 {
     return cmu;
 }

◆ computect()

double HiggsChiral::computect ( ) const

protectedvirtual

A method to compute the ratio of the $Htt$ coupling in the current model and in the SM.

Returns: the ratio of the $Htt$ coupling in the current model and in the SM

Definition at line 1467 of file HiggsChiral.cpp.

 {
     return ct;
 }

◆ computectau()

double HiggsChiral::computectau ( ) const

protectedvirtual

A method to compute the ratio of the $H\tau\tau$ coupling in the current model and in the SM.

Returns: the ratio of the $H\tau\tau$ coupling in the current model and in the SM

Definition at line 1457 of file HiggsChiral.cpp.

 {
     return ctau;
 }

◆ computecV()

double HiggsChiral::computecV ( ) const

protectedvirtual

A method to compute the ratio of the $HVV$ coupling in the current model and in the SM.

Returns: the ratio of the $HWW$ coupling in the current model and in the SM

Definition at line 1365 of file HiggsChiral.cpp.

 {
     return cv;
 }

◆ computecZga()

double HiggsChiral::computecZga ( ) const

protectedvirtual

A method to compute the ratio of the $HZ\gamma$ coupling in the current model and in the SM.

Returns: the ratio of the $HZ\gamma$ coupling in the current model and in the SM

Definition at line 1370 of file HiggsChiral.cpp.

 {
     if (loopComputed) return cZga_loop;
     
     double Mt=trueSM.getQuarks(QCD::TOP).getMass();
     double Mb=trueSM.getQuarks(QCD::BOTTOM).getMass();
     double Mc=trueSM.getQuarks(QCD::CHARM).getMass();
     double Mtau=trueSM.getLeptons(StandardModel::TAU).getMass();
     double Mmu=trueSM.getLeptons(StandardModel::MU).getMass();
     double MW=trueSM.Mw_tree();
     double cW2=trueSM.c02();
     double sW2=1.0-cW2;
     double TAUt=4.0*Mt*Mt/(mHl*mHl);
     double TAUb=4.0*Mb*Mb/(mHl*mHl);
     double TAUc=4.0*Mc*Mc/(mHl*mHl);
     double TAUtau=4.0*Mtau*Mtau/(mHl*mHl);
     double TAUmu=4.0*Mmu*Mmu/(mHl*mHl);
     double TAUw=4.0*MW*MW/(mHl*mHl);
     double LAMt=4.0*Mt*Mt/(Mz*Mz);
     double LAMb=4.0*Mb*Mb/(Mz*Mz);
     double LAMc=4.0*Mc*Mc/(Mz*Mz);
     double LAMtau=4.0*Mtau*Mtau/(Mz*Mz);
     double LAMmu=4.0*Mmu*Mmu/(Mz*Mz);
     double LAMw=4.0*MW*MW/(Mz*Mz);
     double cZgaEff;
  
     cZgaEff = ((-ct * 4.0*(0.5-4.0/3.0*sW2)*(Int1(TAUt,LAMt)-Int2(TAUt,LAMt)) * (1.0-AlsMz/M_PI)
                       +cb * 2.0*(-0.5+2.0/3.0*sW2)*(Int1(TAUb,LAMb)-Int2(TAUb,LAMb))
                       -cc * 4.0*(0.5-4.0/3.0*sW2)*(Int1(TAUc,LAMc)-Int2(TAUc,LAMc))            
                       +ctau * 2.0*(-0.5+2.0*sW2)*(Int1(TAUtau,LAMtau)-Int2(TAUtau,LAMtau))
                       +cmu * 2.0*(-0.5+2.0*sW2)*(Int1(TAUmu,LAMmu)-Int2(TAUmu,LAMmu)) )/sqrt(sW2*cW2)
                      -cv * sqrt(cW2/sW2)*(4.0*(3.0-sW2/cW2)*Int2(TAUw,LAMw)
                             +((1.0+2.0/TAUw)*sW2/cW2-(5.0+2.0/TAUw))*Int1(TAUw,LAMw))
                      +cZga).abs2();
     
     cZgaEff = cZgaEff / ((-4.0*(0.5-4.0/3.0*sW2)*(Int1(TAUt,LAMt)-Int2(TAUt,LAMt)) * (1.0-AlsMz/M_PI)
                       + 2.0*(-0.5+2.0/3.0*sW2)*(Int1(TAUb,LAMb)-Int2(TAUb,LAMb))
                       - 4.0*(0.5-4.0/3.0*sW2)*(Int1(TAUc,LAMc)-Int2(TAUc,LAMc))
                       + 2.0*(-0.5+2.0*sW2)*(Int1(TAUtau,LAMtau)-Int2(TAUtau,LAMtau))
                       + 2.0*(-0.5+2.0*sW2)*(Int1(TAUmu,LAMmu)-Int2(TAUmu,LAMmu)) )/sqrt(sW2*cW2)
                       - sqrt(cW2/sW2)*(4.0*(3.0-sW2/cW2)*Int2(TAUw,LAMw)
                             +((1.0+2.0/TAUw)*sW2/cW2-(5.0+2.0/TAUw))*Int1(TAUw,LAMw))).abs2();
     
     return (sqrt(cZgaEff));
 }

◆ computeGammaTotalRatio()

double HiggsChiral::computeGammaTotalRatio ( ) const

virtual

The ratio of the $\Gamma(H)$ in the current model and in the Standard Model.

Returns: $\Gamma(H)$/ $\Gamma(H)_{\mathrm{SM}}$

Reimplemented from NPbase.

Definition at line 1314 of file HiggsChiral.cpp.

 {
     
     return ((computecg() * computecg() * trueSM.computeBrHtogg()
             + computecV() * computecV() * trueSM.computeBrHtoWW()
             + computecV() * computecV() * trueSM.computeBrHtoZZ()
             + computecZga() * computecZga() * trueSM.computeBrHtoZga()
             + computecgaga() * computecgaga() * trueSM.computeBrHtogaga()
             + computecmu() * computecmu() * trueSM.computeBrHtomumu()
             + computectau() * computectau() * trueSM.computeBrHtotautau()
             + computecc() * computecc() * trueSM.computeBrHtocc()
             + computecb() * computecb() * trueSM.computeBrHtobb())
             / (trueSM.computeBrHtogg()
             + trueSM.computeBrHtoWW()
             + trueSM.computeBrHtoZZ()
             + trueSM.computeBrHtoZga()
             + trueSM.computeBrHtogaga()
             + trueSM.computeBrHtomumu()
             + trueSM.computeBrHtotautau()
             + trueSM.computeBrHtocc()
             + trueSM.computeBrHtobb()));
     
 //    return (GammaTotal() / trueSM.computeGammaHTotal());
 }

◆ cVpluscb()

double HiggsChiral::cVpluscb ( ) const

virtual

The value of $c_V + c_b$.

Returns: $c_V + c_b$

Reimplemented from NPbase.

Definition at line 412 of file HiggsChiral.cpp.

 {
     return cv + cb;
 }

◆ cVplusctau()

double HiggsChiral::cVplusctau ( ) const

virtual

The value of $c_V + c_\tau$.

Returns: $c_V + c_\tau$

Reimplemented from NPbase.

Definition at line 417 of file HiggsChiral.cpp.

 {
     return cv + ctau;
 }

◆ deltaG1_hWW()

double HiggsChiral::deltaG1_hWW ( ) const

virtual

The new physics contribution to the coupling of the effective interaction $H W_{\mu\nu}^\dagger W^{\mu\nu}$.

Returns: $\delta g_{HWW}^{(1)}$

Reimplemented from NPbase.

Definition at line 1490 of file HiggsChiral.cpp.

                                      {
     return 0.0;
 }

◆ deltaG1_hZA()

double HiggsChiral::deltaG1_hZA ( ) const

virtual

The new physics contribution to the coupling of the effective interaction $H Z_{\mu\nu} F^{\mu\nu}$.

Returns: $\delta g_{HZA}^{(1)}$

Reimplemented from NPbase.

Definition at line 1520 of file HiggsChiral.cpp.

                                      {
     // Not needed/implemented yet
     return 0.0;
 }

◆ deltaG1_hZARatio()

double HiggsChiral::deltaG1_hZARatio ( ) const

virtual

The full new physics contribution to the coupling of the effective interaction $H Z_{\mu\nu} F^{A \mu\nu}$, including new local terms and modifications on the SM-loops. Normalized to the SM value.

Returns: $\delta g_{HZA}^{(1)}/g_{HZA}^{(1),SM}$

Reimplemented from NPbase.

Definition at line 1525 of file HiggsChiral.cpp.

                                           {
     return (computecZga() - 1.0);
 }

◆ deltaG1_hZZ()

double HiggsChiral::deltaG1_hZZ ( ) const

virtual

The new physics contribution to the coupling of the effective interaction $H Z_{\mu\nu} Z^{\mu\nu}$.

Returns: $\delta g_{HZZ}^{(1)}$

Reimplemented from NPbase.

Definition at line 1505 of file HiggsChiral.cpp.

                                      {
     return 0.0;
 }

◆ deltaG2_hWW()

double HiggsChiral::deltaG2_hWW ( ) const

virtual

The new physics contribution to the coupling of the effective interaction $H W_{\nu}^\dagger \partial^\mu W^{\mu\nu}$.

Returns: $\delta g_{HWW}^{(2)}$

Reimplemented from NPbase.

Definition at line 1494 of file HiggsChiral.cpp.

                                      {
     return 0.0;
 }

◆ deltaG2_hZA()

double HiggsChiral::deltaG2_hZA ( ) const

virtual

The new physics contribution to the coupling of the effective interaction $H Z_{\nu} \partial^\mu F^{\mu\nu}$.

Returns: $\delta g_{HZA}^{(2)}$

Reimplemented from NPbase.

Definition at line 1529 of file HiggsChiral.cpp.

                                      {
     return 0.0;
 }

◆ deltaG2_hZZ()

double HiggsChiral::deltaG2_hZZ ( ) const

virtual

The new physics contribution to the coupling of the effective interaction $H Z_{\nu} \partial^\mu Z^{\mu\nu}$.

Returns: $\delta g_{HZZ}^{(2)}$

Reimplemented from NPbase.

Definition at line 1509 of file HiggsChiral.cpp.

                                      {
     return 0.0;
 }

◆ deltaG3_hWW()

double HiggsChiral::deltaG3_hWW ( ) const

virtual

The new physics contribution to the coupling of the effective interaction $H W_{\mu}^\dagger W^{\mu}$.

Returns: $\delta g_{HWW}^{(3)}$

Reimplemented from NPbase.

Definition at line 1498 of file HiggsChiral.cpp.

                                      {
     
     double gSM = 2.0 * (trueSM.Mw_tree())* (trueSM.Mw_tree()) / (trueSM.v());
     
     return ( gSM * (computecV() - 1.0 ) );
 }

◆ deltaG3_hZZ()

double HiggsChiral::deltaG3_hZZ ( ) const

virtual

The new physics contribution to the coupling of the effective interaction $H Z_{\mu} Z^{\mu}$.

Returns: $\delta g_{HZZ}^{(3)}$

Reimplemented from NPbase.

Definition at line 1513 of file HiggsChiral.cpp.

                                      {
     
     double gSM = (trueSM.getMz()) * (trueSM.getMz()) / (trueSM.v());
     
     return ( gSM * (computecV() - 1.0 ) );
 }

◆ deltaG_hAA()

double HiggsChiral::deltaG_hAA ( ) const

virtual

The new physics contribution to the coupling of the effective interaction $H F_{\mu\nu} F^{\mu\nu}$.

Returns: $\delta g_{HAA}$

Reimplemented from NPbase.

Definition at line 1533 of file HiggsChiral.cpp.

                                     {
     // Not needed/implemented yet
     return 0.0;
 }

◆ deltaG_hAARatio()

double HiggsChiral::deltaG_hAARatio ( ) const

virtual

The full new physics contribution to the coupling of the effective interaction $H F_{\mu\nu} F^{\mu\nu}$, including new local terms and modifications on the SM-loops. Normalized to the SM value.

Returns: $\delta g_{HAA}/g_{HAA}^SM}$

Reimplemented from NPbase.

Definition at line 1538 of file HiggsChiral.cpp.

                                          {
     return (computecgaga() - 1.0);
 }

◆ deltaG_hff()

gslpp::complex HiggsChiral::deltaG_hff ( const Particle p ) const

virtual

The new physics contribution to the coupling of the effective interaction $H f\bar{f}$.

Parameters

[in] p a lepton or quark

Returns: $\delta g_{Hff}$

Reimplemented from NPbase.

Definition at line 1542 of file HiggsChiral.cpp.

                                                           {
     
     double gSM = -(p.getMass()) / (trueSM.v());
     
     if ( p.is("ELECTRON") ) {
         return ( 0.0 );
     } else if ( p.is("MU") ) {
          return ( gSM * (computecmu() - 1.0 ) );       
     } else if ( p.is("TAU") ) {
         return ( gSM * (computectau() - 1.0 ) );        
     } else if ( p.is("UP") ) {
         return ( 0.0 );        
     } else if ( p.is("CHARM") ) {
         return ( gSM * (computecc() - 1.0 ) );        
     } else if ( p.is("TOP") ) {
         return ( gSM * (computect() - 1.0 ) );        
     } else if ( p.is("DOWN") ) {
         return ( 0.0 );        
     } else if ( p.is("STRANGE") ) {
         return ( 0.0 );        
     } else if ( p.is("BOTTOM") ) {
         return ( gSM * (computecb() - 1.0 ) );        
     } else {
         return 0.0;
     }
 }

◆ deltaG_hgg()

double HiggsChiral::deltaG_hgg ( ) const

virtual

The new physics contribution to the coupling of the effective interaction $H G_{\mu\nu}^AG^{A \mu\nu}$.

Returns: $\delta g_{HGG}$

Reimplemented from NPbase.

Definition at line 1480 of file HiggsChiral.cpp.

 {
     // Not needed/implemented yet
     return 0.0;
 }

◆ deltaG_hggRatio()

double HiggsChiral::deltaG_hggRatio ( ) const

virtual

The full new physics contribution to the coupling of the effective interaction $H G_{\mu\nu}^AG^{A \mu\nu}$, including new local terms and modifications on the SM-loops. Normalized to the SM value.

Returns: $\delta g_{HGG}/g_{HGG}^SM}$

Reimplemented from NPbase.

Definition at line 1486 of file HiggsChiral.cpp.

                                          {
     return (computecg() - 1.0);
 }

◆ f_func()

gslpp::complex HiggsChiral::f_func ( const double x ) const

private

Definition at line 1618 of file HiggsChiral.cpp.

                                                     {
     if(x<1) {
     gslpp::complex z = -gslpp::complex::i()*M_PI;
     return -pow(log((1+sqrt(1-x))/(1-sqrt(1-x)))+z,2)/4.0;
     }
     else {
         return pow(asin(sqrt(1.0/x)),2);
     }
 }

◆ g_func()

gslpp::complex HiggsChiral::g_func ( const double x ) const

private

Definition at line 1628 of file HiggsChiral.cpp.

                                                     {
     if(x<1) {
     gslpp::complex z = -gslpp::complex::i()*M_PI;
     gslpp::complex gs1 = sqrt(1.0-x)*(log((1.0+sqrt(1.0-x))/(1.0-sqrt(1.0-x)))+z)/2.0;
     return gs1;
     }
     else {
         gslpp::complex gg1 = sqrt(x-1.0)*asin(sqrt(1.0/x));
         return gg1;
     }
 }

◆ Gammabb()

double HiggsChiral::Gammabb ( ) const

virtual

The decay width $(H\to b \bar{b})$ in the current model.

Returns: $\Gamma(H\to c \bar{c})$

Definition at line 525 of file HiggsChiral.cpp.

 {
     return computecb() * computecb() * trueSM.computeBrHtobb() * trueSM.computeGammaHTotal();
 }

◆ Gammacc()

double HiggsChiral::Gammacc ( ) const

virtual

The decay width $(H\to c \bar{c})$ in the current model.

Returns: $\Gamma(H\to c \bar{c})$

Definition at line 520 of file HiggsChiral.cpp.

 {
     return computecc() * computecc() * trueSM.computeBrHtocc() * trueSM.computeGammaHTotal();
 }

◆ Gammagaga()

double HiggsChiral::Gammagaga ( ) const

virtual

The decay width $(H\to \gamma\gamma)$ in the current model.

Returns: $\Gamma(H\to \gamma\gamma)$

Definition at line 490 of file HiggsChiral.cpp.

 {
     double Mt=trueSM.getQuarks(QCD::TOP).getMass();
     double Mb=trueSM.getQuarks(QCD::BOTTOM).getMass();
     double Mtau=trueSM.getLeptons(StandardModel::TAU).getMass();
     double MW=trueSM.Mw_tree();
     double TAUt=4.0*Mt*Mt/(mHl*mHl);
     double TAUb=4.0*Mb*Mb/(mHl*mHl);
     double TAUtau=4.0*Mtau*Mtau/(mHl*mHl);
     double TAUw=4.0*MW*MW/(mHl*mHl);
  
     double factor = GF*ale*ale*mHl*mHl*mHl/(sqrt(2.0)*128.0*M_PI*M_PI*M_PI);
  
     return factor * ( ct * (8./3.)*TAUt*(1.+(1.-TAUt)*f_func(TAUt)) * (1.0-AlsMz/M_PI)
                      +cb * (2./3.)*TAUb*(1.+(1.-TAUb)*f_func(TAUb))
                      +ctau * 2.0*TAUtau*(1.+(1.-TAUtau)*f_func(TAUtau))
                      -cv * (2.0+3.0*TAUw+3.0*TAUw*(2.0-TAUw)*f_func(TAUw))
                      +cga * 2.0 ).abs2();
 }

◆ Gammagg()

double HiggsChiral::Gammagg ( ) const

virtual

The decay width $(H\to gg)$ in the current model.

Returns: $\Gamma(H\to gg)$

Definition at line 437 of file HiggsChiral.cpp.

 {
     double Mt=trueSM.getQuarks(QCD::TOP).getMass();
     double Mb=trueSM.getQuarks(QCD::BOTTOM).getMass();
     double TAUt=4.0*Mt*Mt/(mHl*mHl);
     double TAUb=4.0*Mb*Mb/(mHl*mHl);
  
     double factor = GF*AlsMz*AlsMz*mHl*mHl*mHl/(sqrt(2.0)*4.0*M_PI*M_PI*M_PI);
       
     double ksoftNLO = 1.0 + (AlsMz/M_PI) * ( 73.0/4.0 -7.0*5.0/6.0);
  
     return factor * ksoftNLO * ( ( ct * 0.5*TAUt*(1.0+(1.0-TAUt)*f_func(TAUt))
                      +cb * 0.5*TAUb*(1.0+(1.0-TAUb)*f_func(TAUb)) ) * (1.0+11.0*AlsMz/(4.0*M_PI))
                      +cg * 0.5 ).abs2();
 }

◆ Gammamumu()

double HiggsChiral::Gammamumu ( ) const

virtual

The decay width $(H\to \mu^+ \mu^-)$ in the current model.

Returns: $\Gamma(H\to \mu^+ \mu^-)$

Definition at line 510 of file HiggsChiral.cpp.

 {
     return computecmu() * computecmu() * trueSM.computeBrHtomumu() * trueSM.computeGammaHTotal();
 }

◆ Gammatautau()

double HiggsChiral::Gammatautau ( ) const

virtual

The decay width $(H\to \tau^+ \tau^-)$ in the current model.

Returns: $\Gamma(H\to \tau^+ \tau^-)$

Definition at line 515 of file HiggsChiral.cpp.

 {
     return computectau() * computectau() * trueSM.computeBrHtotautau() * trueSM.computeGammaHTotal();
 }

◆ GammaTotal()

double HiggsChiral::GammaTotal ( ) const

virtual

The total decay width of the Higgs boson in the current model.

Returns: $\Gamma(H)$

Definition at line 530 of file HiggsChiral.cpp.

 {
     return Gammagg() + GammaWW() + GammaZZ() + GammaZga() + Gammagaga() 
             + Gammamumu() + Gammatautau() + Gammacc() + Gammabb();
 }

◆ GammaWW()

double HiggsChiral::GammaWW ( ) const

virtual

The decay width $(H\to WW)$ in the current model.

Returns: $\Gamma(H\to WW)$

Definition at line 453 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * trueSM.computeBrHtoWW() * trueSM.computeGammaHTotal();
 }

◆ GammaZga()

double HiggsChiral::GammaZga ( ) const

virtual

The decay width $(H\to Z\gamma)$ in the current model.

Returns: $\Gamma(H\to Z\gamma)$

Definition at line 463 of file HiggsChiral.cpp.

 {
     double Mt=trueSM.getQuarks(QCD::TOP).getMass();
     double Mb=trueSM.getQuarks(QCD::BOTTOM).getMass();
     double Mtau=trueSM.getLeptons(StandardModel::TAU).getMass();
     double MW=trueSM.Mw_tree();
     double cW2=trueSM.c02();
     double sW2=1.0-cW2;
     double TAUt=4.0*Mt*Mt/(mHl*mHl);
     double TAUb=4.0*Mb*Mb/(mHl*mHl);
     double TAUtau=4.0*Mtau*Mtau/(mHl*mHl);
     double TAUw=4.0*MW*MW/(mHl*mHl);
     double LAMt=4.0*Mt*Mt/(Mz*Mz);
     double LAMb=4.0*Mb*Mb/(Mz*Mz);
     double LAMtau=4.0*Mtau*Mtau/(Mz*Mz);
     double LAMw=4.0*MW*MW/(Mz*Mz);
  
     double factor = GF*ale*ale/(sqrt(2.0)*64.0*M_PI*M_PI*M_PI)*pow(mHl*(1.0-Mz*Mz/(mHl*mHl)),3);
  
     return factor * ((-ct * 4.0*(0.5-4.0/3.0*sW2)*(Int1(TAUt,LAMt)-Int2(TAUt,LAMt)) * (1.0-AlsMz/M_PI)
                       +cb * 2.0*(-0.5+2.0/3.0*sW2)*(Int1(TAUb,LAMb)-Int2(TAUb,LAMb))
                       +ctau * 2.0*(-0.5+2.0*sW2)*(Int1(TAUtau,LAMtau)-Int2(TAUtau,LAMtau)) )/sqrt(sW2*cW2)
                      -cv * sqrt(cW2/sW2)*(4.0*(3.0-sW2/cW2)*Int2(TAUw,LAMw)
                             +((1.0+2.0/TAUw)*sW2/cW2-(5.0+2.0/TAUw))*Int1(TAUw,LAMw))
                      +cZga).abs2(); /*CHANGE THE cZga COEFFICIENT!*/
 }

◆ GammaZZ()

double HiggsChiral::GammaZZ ( ) const

virtual

The decay width $(H\to ZZ)$ in the current model.

Returns: $\Gamma(H\to ZZ)$

Definition at line 458 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * trueSM.computeBrHtoZZ() * trueSM.computeGammaHTotal();
 }

◆ getcb()

double HiggsChiral::getcb ( ) const

inline

a getter for the EFT coeff $c_b$

Returns: $c_b$

Definition at line 156 of file HiggsChiral.h.

     {
         return cb;
     }

◆ getcc()

double HiggsChiral::getcc ( ) const

inline

a getter for the EFT coeff $c_c$

Returns: $c_c$

Definition at line 165 of file HiggsChiral.h.

     {
         return cc;
     }

◆ getcg()

double HiggsChiral::getcg ( ) const

inline

a getter for the EFT coeff $c_g$

Returns: $c_g$

Definition at line 192 of file HiggsChiral.h.

     {
         return cg;
     }

◆ getcga()

double HiggsChiral::getcga ( ) const

inline

a getter for the EFT coeff $c_\gamma$

Returns: $c_\gamma$

Definition at line 201 of file HiggsChiral.h.

     {
         return cga;
     }

◆ getcmu()

double HiggsChiral::getcmu ( ) const

inline

a getter for the EFT coeff $c_\mu$

Returns: $c_\mu$

Definition at line 183 of file HiggsChiral.h.

     {
         return cmu;
     }

◆ getct()

double HiggsChiral::getct ( ) const

inline

a getter for the EFT coeff $c_t$

Returns: $c_t$

Definition at line 147 of file HiggsChiral.h.

     {
         return ct;
     }

◆ getctau()

double HiggsChiral::getctau ( ) const

inline

a getter for the EFT coeff $c_\tau$

Returns: $c_\tau$

Definition at line 174 of file HiggsChiral.h.

     {
         return ctau;
     }

◆ getcv()

double HiggsChiral::getcv ( ) const

inline

a getter for the EFT coeff $c_V$

Returns: $c_V$

Definition at line 138 of file HiggsChiral.h.

     {
         return cv;
     }

◆ getcZga()

double HiggsChiral::getcZga ( ) const

inline

a getter for the EFT coeff $c_{Z\gamma}$

Returns: $c_{Z\gamma}$

Definition at line 210 of file HiggsChiral.h.

     {
         return cZga;
     }

◆ getexpZgaLimitATLAS()

double HiggsChiral::getexpZgaLimitATLAS ( ) const

inline

a getter for the experimental value of the expected upper limit in $pp \to H \to Z\gamma$ from ATLAS

Returns: The $H \to Z\gamma$ limit from ATLAS

Definition at line 273 of file HiggsChiral.h.

     {
         return expZgaLimitATLAS;
     }

◆ getexpZgaLimitATLAS13()

double HiggsChiral::getexpZgaLimitATLAS13 ( ) const

inline

a getter for the experimental value of the expected upper limit in $pp \to H \to Z\gamma$ from ATLAS at 13 TeV

Returns: The $H \to Z\gamma$ limit from ATLAS at 13 TeV

Definition at line 255 of file HiggsChiral.h.

     {
         return expZgaLimitATLAS13;
     }

◆ getexpZgaLimitCMS()

double HiggsChiral::getexpZgaLimitCMS ( ) const

inline

a getter for the experimental value of the expected upper limit in $pp \to H \to Z\gamma$ from CMS

Returns: The $H \to Z\gamma$ limit from CMS

Definition at line 282 of file HiggsChiral.h.

     {
         return expZgaLimitCMS;
     }

◆ getexpZgaLimitCMS13()

double HiggsChiral::getexpZgaLimitCMS13 ( ) const

inline

a getter for the experimental value of the expected upper limit in $pp \to H \to Z\gamma$ from CMS at 13 TeV

Returns: The $H \to Z\gamma$ limit from CMS at 13 TeV

Definition at line 264 of file HiggsChiral.h.

     {
         return expZgaLimitCMS13;
     }

◆ getobsZgaLimitATLAS()

double HiggsChiral::getobsZgaLimitATLAS ( ) const

inline

a getter for the value of the observed upper limit in $pp \to H \to Z\gamma$ from ATLAS

Returns: The $H \to Z\gamma$ limit from ATLAS

Definition at line 237 of file HiggsChiral.h.

     {
         return obsZgaLimitATLAS;
     }

◆ getobsZgaLimitATLAS13()

double HiggsChiral::getobsZgaLimitATLAS13 ( ) const

inline

a getter for the value of the observed upper limit in $pp \to H \to Z\gamma$ from ATLAS at 13 TeV

Returns: The $H \to Z\gamma$ limit from ATLAS at 13 TeV

Definition at line 219 of file HiggsChiral.h.

     {
         return obsZgaLimitATLAS13;
     }

◆ getobsZgaLimitCMS()

double HiggsChiral::getobsZgaLimitCMS ( ) const

inline

a getter for the value of the observed upper limit in $pp \to H \to Z\gamma$ from CMS

Returns: The $H \to Z\gamma$ limit from CMS

Definition at line 246 of file HiggsChiral.h.

     {
         return obsZgaLimitCMS;
     }

◆ getobsZgaLimitCMS13()

double HiggsChiral::getobsZgaLimitCMS13 ( ) const

inline

a getter for the value of the observed upper limit in $pp \to H \to Z\gamma$ from CMS at 13 TeV

Returns: The $H \to Z\gamma$ limit from CMS at 13 TeV

Definition at line 228 of file HiggsChiral.h.

     {
         return obsZgaLimitCMS13;
     }

◆ Int1()

gslpp::complex HiggsChiral::Int1	(	const double	tau,
		const double	lambda
	)		const

private

Definition at line 1640 of file HiggsChiral.cpp.

                                                                          {
     return tau*lambda/(tau-lambda)/2.0+tau*tau*lambda*lambda/((tau-lambda)
            *(tau-lambda))/2.0*(f_func(tau)-f_func(lambda))+tau*tau*lambda/((tau-lambda)
            *(tau-lambda))*(g_func(tau)-g_func(lambda));
 }

◆ Int2()

gslpp::complex HiggsChiral::Int2	(	const double	tau,
		const double	lambda
	)		const

private

Definition at line 1646 of file HiggsChiral.cpp.

                                                                          {
     return -tau*lambda/(tau-lambda)/2.0*(f_func(tau)-f_func(lambda));
 }

◆ kappaAeff()

double HiggsChiral::kappaAeff ( ) const

virtual

The effective coupling $\kappa_{A,eff}=\sqrt{\Gamma_{HAA}/\Gamma_{HAA}^{SM}}$.

Returns: $\kappa_{A,eff}$

Reimplemented from NPbase.

Definition at line 1606 of file HiggsChiral.cpp.

 {
       return computecgaga();
 }

◆ kappabeff()

double HiggsChiral::kappabeff ( ) const

virtual

The effective coupling $\kappa_{b,eff}=\sqrt{\Gamma_{Hbb}/\Gamma_{Hbb}^{SM}}$.

Returns: $\kappa_{b,eff}$

Reimplemented from NPbase.

Definition at line 1586 of file HiggsChiral.cpp.

 {
       return computecb();
 }

◆ kappaceff()

double HiggsChiral::kappaceff ( ) const

virtual

The effective coupling $\kappa_{c,eff}=\sqrt{\Gamma_{Hcc}/\Gamma_{Hcc}^{SM}}$.

Returns: $\kappa_{c,eff}$

Reimplemented from NPbase.

Definition at line 1581 of file HiggsChiral.cpp.

 {
       return computecc();
 }

◆ kappaGeff()

double HiggsChiral::kappaGeff ( ) const

virtual

The effective coupling $\kappa_{G,eff}=\sqrt{\Gamma_{HGG}/\Gamma_{HGG}^{SM}}$.

Returns: $\kappa_{G,eff}$

Reimplemented from NPbase.

Definition at line 1591 of file HiggsChiral.cpp.

 {
       return computecg();
 }

◆ kappamueff()

double HiggsChiral::kappamueff ( ) const

virtual

The effective coupling $\kappa_{\mu,eff}=\sqrt{\Gamma_{H\mu\mu}/\Gamma_{H\mu\mu}^{SM}}$.

Returns: $\kappa_{\mu,eff}$

Reimplemented from NPbase.

Definition at line 1571 of file HiggsChiral.cpp.

 {
       return computecmu();
 }

◆ kappataueff()

double HiggsChiral::kappataueff ( ) const

virtual

The effective coupling $\kappa_{\tau,eff}=\sqrt{\Gamma_{H\tau\tau}/\Gamma_{H\tau\tau}^{SM}}$.

Returns: $\kappa_{\tau,eff}$

Reimplemented from NPbase.

Definition at line 1576 of file HiggsChiral.cpp.

 {
       return computectau();
 }

◆ kappaWeff()

double HiggsChiral::kappaWeff ( ) const

virtual

The effective coupling $\kappa_{W,eff}=\sqrt{\Gamma_{HWW}/\Gamma_{HWW}^{SM}}$.

Returns: $\kappa_{W,eff}$

Reimplemented from NPbase.

Definition at line 1601 of file HiggsChiral.cpp.

 {
       return computecV();
 }

◆ kappaZAeff()

double HiggsChiral::kappaZAeff ( ) const

virtual

The effective coupling $\kappa_{ZA,eff}=\sqrt{\Gamma_{HZA}/\Gamma_{HZA}^{SM}}$.

Returns: $\kappa_{ZA,eff}$

Reimplemented from NPbase.

Definition at line 1611 of file HiggsChiral.cpp.

 {
       return computecZga();
 }

◆ kappaZeff()

double HiggsChiral::kappaZeff ( ) const

virtual

The effective coupling $\kappa_{Z,eff}=\sqrt{\Gamma_{HZZ}/\Gamma_{HZZ}^{SM}}$.

Returns: $\kappa_{Z,eff}$

Reimplemented from NPbase.

Definition at line 1596 of file HiggsChiral.cpp.

 {
       return computecV();
 }

◆ mueeHvv()

double HiggsChiral::mueeHvv ( const double sqrt_s ) const

virtual

The ratio $\mu_{e^+e^- \to H\nu\bar{\nu}}$ between the $ e^+e^- \to H\nu\bar{\nu} $ associated production cross-section in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{e^+e^- \to H\nu\bar{\nu}}$

Reimplemented from NPbase.

Definition at line 193 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ mueeHvvPol()

double HiggsChiral::mueeHvvPol	(	const double	sqrt_s,
		const double	Pol_em,
		const double	Pol_ep
	)		const

virtual

The ratio $\mu_{e^+e^- \to H\nu\bar{\nu}}$ between the $ e^+e^- \to H\nu\bar{\nu} $ associated production cross-section in the current model and in the Standard Model.

Parameters

[in]	sqrt_s	the center-of-mass energy in TeV,
[in]	Pol_em	polarization of electrons
[in]

Reimplemented from NPbase.

Definition at line 198 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ mueettH()

double HiggsChiral::mueettH ( const double sqrt_s ) const

virtual

The ratio $\mu_{eettH}$ between the $ e^{+}e^{-}\to t\bar{t} H $ production cross-section in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{eettH}$

Reimplemented from NPbase.

Definition at line 291 of file HiggsChiral.cpp.

 {
     return computect() * computect();
 }

◆ mueettHPol()

double HiggsChiral::mueettHPol	(	const double	sqrt_s,
		const double	Pol_em,
		const double	Pol_ep
	)		const

virtual

The ratio $\mu_{eettH}$ between the $ e^{+}e^{-}\to t\bar{t} H $ production cross-section in the current model and in the Standard Model.

Parameters

[in]	sqrt_s	the center-of-mass energy in TeV,
[in]	Pol_em	polarization of electrons
[in]

Reimplemented from NPbase.

Definition at line 296 of file HiggsChiral.cpp.

 {
     return computect() * computect();
 }

◆ mueeWBF()

double HiggsChiral::mueeWBF ( const double sqrt_s ) const

virtual

The ratio $\mu_{eeWBF}$ between the $ e^{+}e^{-}\to \nu\bar{\nu} H $ production cross-section in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{eeWBF}$

Reimplemented from NPbase.

Definition at line 183 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ mueeWBFPol()

double HiggsChiral::mueeWBFPol	(	const double	sqrt_s,
		const double	Pol_em,
		const double	Pol_ep
	)		const

virtual

The ratio $\mu_{eeWBF}$ between the $ e^{+}e^{-}\to \nu\bar{\nu} H $ production cross-section in the current model and in the Standard Model.

Parameters

[in]	sqrt_s	the center-of-mass energy in TeV,
[in]	Pol_em	polarization of electrons
[in]

Reimplemented from NPbase.

Definition at line 188 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ mueeZBF()

double HiggsChiral::mueeZBF ( const double sqrt_s ) const

virtual

The ratio $\mu_{eeZBF}$ between the $ e^{+}e^{-}\to e^{+}e^{-} H $ production cross-section in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{eeZBF}$

Reimplemented from NPbase.

Definition at line 203 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ mueeZBFPol()

double HiggsChiral::mueeZBFPol	(	const double	sqrt_s,
		const double	Pol_em,
		const double	Pol_ep
	)		const

virtual

The ratio $\mu_{eeZBF}$ between the $ e^{+}e^{-}\to e^{+}e^{-} H $ production cross-section in the current model and in the Standard Model.

Parameters

[in]	sqrt_s	the center-of-mass energy in TeV,
[in]	Pol_em	polarization of electrons
[in]

Reimplemented from NPbase.

Definition at line 208 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ mueeZH()

double HiggsChiral::mueeZH ( const double sqrt_s ) const

virtual

The ratio $\mu_{eeZH}$ between the $e^{+}e^{-}\to ZH$ associated production cross-section in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{eeZH}$

Reimplemented from NPbase.

Definition at line 223 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ mueeZHPol()

double HiggsChiral::mueeZHPol	(	const double	sqrt_s,
		const double	Pol_em,
		const double	Pol_ep
	)		const

virtual

The ratio $\mu_{eeZH}$ between the $ e^{+}e^{-}\to ZH $ associated production cross-section in the current model and in the Standard Model.

Parameters

[in]	sqrt_s	the center-of-mass energy in TeV,
[in]	Pol_em	polarization of electrons
[in]

Reimplemented from NPbase.

Definition at line 238 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ mueeZllH()

double HiggsChiral::mueeZllH ( const double sqrt_s ) const

virtual

The ratio $\mu_{eeZH, Z \to e^+ e^-, \mu^+ \mu^-}$ between the $ e^{+}e^{-}\to ZH, Z \to e^+ e^-, \mu^+ \mu^- $ associated production cross-section in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{eeZH, Z \to e^+ e^-, \mu^+ \mu^-}$

Reimplemented from NPbase.

Definition at line 228 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ mueeZllHPol()

double HiggsChiral::mueeZllHPol	(	const double	sqrt_s,
		const double	Pol_em,
		const double	Pol_ep
	)		const

virtual

The ratio $\mu_{eeZH, Z \to e^+ e^-, \mu^+ \mu^-}$ between the $ e^{+}e^{-}\to ZH, Z \to e^+ e^-, \mu^+ \mu^- $ associated production cross-section in the current model and in the Standard Model.

Parameters

[in]	sqrt_s	the center-of-mass energy in TeV,
[in]	Pol_em	polarization of electrons
[in]

Reimplemented from NPbase.

Definition at line 243 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ mueeZqqH()

double HiggsChiral::mueeZqqH ( const double sqrt_s ) const

virtual

The ratio $\mu_{eeZH, Z \to q \bar{q}}$ between the $ e^{+}e^{-}\to ZH, Z \to q \bar{q} $ associated production cross-section in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{eeZH, Z \to q \bar{q}}$

Reimplemented from NPbase.

Definition at line 233 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ mueeZqqHPol()

double HiggsChiral::mueeZqqHPol	(	const double	sqrt_s,
		const double	Pol_em,
		const double	Pol_ep
	)		const

virtual

The ratio $\mu_{eeZH, Z \to q \bar{q}}$ between the $ e^{+}e^{-}\to ZH, Z \to q \bar{q} $ associated production cross-section in the current model and in the Standard Model.

Parameters

[in]	sqrt_s	the center-of-mass energy in TeV,
[in]	Pol_em	polarization of electrons
[in]

Reimplemented from NPbase.

Definition at line 248 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ muggH()

double HiggsChiral::muggH ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH}$ between the gluon-gluon fusion Higgs production cross-section in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH}$

Reimplemented from NPbase.

Definition at line 166 of file HiggsChiral.cpp.

 {
 //    return Gammagg() / (trueSM.computeBrHtogg()*trueSM.computeGammaHTotal());
       
     return computecg() * computecg();
 }

◆ muggHbb()

double HiggsChiral::muggHbb ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,bb}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,bb}$

Reimplemented from NPbase.

Definition at line 954 of file HiggsChiral.cpp.

 {
     return computecg() * computecg() * computecb() * computecb() / computeGammaTotalRatio();
 }

◆ muggHgaga()

double HiggsChiral::muggHgaga ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,\gamma\gamma}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,\gamma\gamma}$

Reimplemented from NPbase.

Definition at line 662 of file HiggsChiral.cpp.

 {
     return computecg() * computecg() * computecgaga() * computecgaga() / computeGammaTotalRatio();
 }

◆ muggHgagaInt()

double HiggsChiral::muggHgagaInt ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,\gamma\gamma}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model. Includes interference effects with the background, following arXiv:1704.08259.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,\gamma\gamma}$

Reimplemented from NPbase.

Definition at line 667 of file HiggsChiral.cpp.

 {
     double muNWA, GammaRatio, fki;
     double kt,kb,kc,ks,ku,kd,kta,km,ke;
     double kw;
     double kg,kgamma;
     
     muNWA = muggH(sqrt_s)*BrHgagaRatio();
     
     kt = computect();
     kb = computecb();
     kc = computecc();
     ks = 1.0;
     ku = 1.0;
     kd = 1.0;
     kta = computectau();
     km = computecmu();
     ke = 1.0;
     
     kw = computecV();
     
     kg = (3.0/2.0) * computecg();
     kgamma = (3.0/2.0) * computecgaga();
     
     GammaRatio = computeGammaTotalRatio();
  
     fki = 0.000802422 *kb*kb + 0.000312884 *kb*kc + 0.0000182107 *kc*kc +
             5.94769e-9 *kb*kd + 9.62554e-10 *kc*kd + 6.2785e-15 *kd*kd + 
             5.53251e-10 *kb*ke + 3.51863e-11 *kc*ke + 1.09243e-15 *kd*ke - 
             0.00905016 *kb*kg - 0.00190706 *kc*kg - 5.97591e-9 *kd*kg - 
             6.72288e-10 *ke*kg - 0.0271505 *kb*kgamma - 0.00143029 *kc*kgamma - 
             1.79277e-8 *kd*kgamma - 0.174392 *kg*kgamma + 8.97565e-6 *kb*km + 
             6.21013e-7 *kc*km + 2.37616e-11 *kd*km - 0.0000460022 *kg*km + 
             4.93348e-6 *kb*ks + 8.51176e-7 *kc*ks + 1.29558e-11 *kd*ks + 
             1.16267e-12 *ke*ks - 0.0000123381 *kg*ks - 0.0000370143 *kgamma*ks + 
             2.22544e-8 *km*ks + 6.08665e-9 *ks*ks - 0.0467672 *kb*kt - 
             0.00394193 *kc*kt - 3.08808e-8 *kd*kt - 6.94817e-10 *ke*kt - 
             0.240315 *kg*kt - 0.180236 *kgamma*kt - 0.0000475437 *km*kt - 
             0.0000637578 *ks*kt - 0.248368 *kt*kt + 0.00100168 *kb*kta + 
             0.0000759092 *kc*kta + 3.44671e-9 *kd*kta - 0.00975386 *kg*kta + 
             2.93009e-6 *ks*kta - 0.0100807 *kt*kta + 5.30126e-8 *kb*ku + 
             5.54256e-9 *kc*ku + 1.15815e-13 *kd*ku + 4.05206e-15 *ke*ku - 
             1.03323e-7 *kg*ku - 7.74926e-8 *kgamma*ku + 
             8.62762e-11 *km*ku + 1.17664e-10 *ks*ku - 2.13572e-7 *kt*ku + 
             1.2332e-8 *kta*ku + 3.40922e-13 *ku*ku + 0.169912 *kb*kw + 
             0.00895098 *kc*kw + 1.12194e-7 *kd*kw + 1.09137 *kg*kw + 
             0.000231641 *ks*kw + 1.12795 *kt*kw + 4.8496e-7 *ku*kw;
     
     return (muNWA - 0.022 *GammaRatio * fki)/0.978;
  
 }

◆ muggHmumu()

double HiggsChiral::muggHmumu ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,\mu\mu}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,\mu\mu}$

Reimplemented from NPbase.

Definition at line 894 of file HiggsChiral.cpp.

 {
     return computecg() * computecg() * computecmu() * computecmu() / computeGammaTotalRatio();
 }

◆ muggHpttH()

double HiggsChiral::muggHpttH ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH+ttH}$ between the sum of gluon-gluon fusion and t-tbar-Higgs associated production cross-section in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH+ttH}$

Reimplemented from NPbase.

Definition at line 280 of file HiggsChiral.cpp.

 {
     double sigmaggH_SM = trueSM.computeSigmaggH(sqrt_s);
     double sigmattH_SM = trueSM.computeSigmattH(sqrt_s);
  
     double sigmaggH = muggH(sqrt_s) * sigmaggH_SM;
     double sigmattH = muttH(sqrt_s) * sigmattH_SM;
  
     return (sigmaggH + sigmattH) / (sigmaggH_SM + sigmattH_SM);
 } 

◆ muggHtautau()

double HiggsChiral::muggHtautau ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,\tau\tau}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,\tau\tau}$

Reimplemented from NPbase.

Definition at line 924 of file HiggsChiral.cpp.

 {
     return computecg() * computecg() * computectau() * computectau() / computeGammaTotalRatio();
 }

◆ muggHWW()

double HiggsChiral::muggHWW ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,WW}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,WW}$

Reimplemented from NPbase.

Definition at line 834 of file HiggsChiral.cpp.

 {
     return computecg() * computecg() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muggHWW2l2v()

double HiggsChiral::muggHWW2l2v ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,WW\to 2l2\nu}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,WW\to 2l2\nu}$

Reimplemented from NPbase.

Definition at line 864 of file HiggsChiral.cpp.

 {
     return computecg() * computecg() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muggHZga()

double HiggsChiral::muggHZga ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,Z\gamma}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,Z\gamma}$

Reimplemented from NPbase.

Definition at line 744 of file HiggsChiral.cpp.

 {
     return computecg() * computecg() * computecZga() * computecZga() / computeGammaTotalRatio();
 }

◆ muggHZZ()

double HiggsChiral::muggHZZ ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,ZZ}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,ZZ}$

Reimplemented from NPbase.

Definition at line 774 of file HiggsChiral.cpp.

 {
     return computecg() * computecg() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muggHZZ4l()

double HiggsChiral::muggHZZ4l ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,ZZ\to 4l}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,ZZ\to 4l}$

Reimplemented from NPbase.

Definition at line 804 of file HiggsChiral.cpp.

 {
     return computecg() * computecg() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muppHmumu()

double HiggsChiral::muppHmumu ( const double sqrt_s ) const

virtual

The ratio $\mu_{pp,bb}$ between the Higgs production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{pp,bb}$

Reimplemented from NPbase.

Definition at line 984 of file HiggsChiral.cpp.

 {
     if(sqrt_s==8)
     {
         return (0.872 * computecg() * computecg() + 0.122 * computecV() * computecV() + 0.006 * computect() * computect()) * computecmu() * computecmu() / computeGammaTotalRatio();
     }
     if(sqrt_s==13)
     {
         return (0.871 * computecg() * computecg() + 0.119 * computecV() * computecV() + 0.010 * computect() * computect()) * computecmu() * computecmu() / computeGammaTotalRatio();
     }
     else
     {
         throw std::runtime_error("The observable muppHmumu is only defined for 8 or 13 TeV.");
     }
 }

◆ mutHq()

double HiggsChiral::mutHq ( const double sqrt_s ) const

virtual

The ratio $\mu_{tHq}$ between the t-q-Higgs associated production cross-section in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{tHq}$

Reimplemented from NPbase.

Definition at line 268 of file HiggsChiral.cpp.

 {
     double mu = 1.0;
     double Kt = computect();
     double Kw = computecV();
     
 //  From ATLAS parametrization of the K-framework (at 14 TeV?)     
     mu = 2.63 * Kt * Kt + 3.58 * Kw * Kw - 5.21 * Kt * Kw;
     
     return mu;
 }

◆ muTHUggHbb()

double HiggsChiral::muTHUggHbb ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,bb}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,bb}$

Reimplemented from NPbase.

Definition at line 1247 of file HiggsChiral.cpp.

 {
     return muggH(sqrt_s)*BrHbbRatio();
 }

◆ muTHUggHgaga()

double HiggsChiral::muTHUggHgaga ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,\gamma\gamma}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,\gamma\gamma}$

Reimplemented from NPbase.

Definition at line 1007 of file HiggsChiral.cpp.

 {
     return muggH(sqrt_s)*BrHgagaRatio();
 }

◆ muTHUggHmumu()

double HiggsChiral::muTHUggHmumu ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,\mu\mu}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,\mu\mu}$

Reimplemented from NPbase.

Definition at line 1187 of file HiggsChiral.cpp.

 {
     return muggH(sqrt_s)*BrHmumuRatio();
 }

◆ muTHUggHtautau()

double HiggsChiral::muTHUggHtautau ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,\tau\tau}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,\tau\tau}$

Reimplemented from NPbase.

Definition at line 1217 of file HiggsChiral.cpp.

 {
     return muggH(sqrt_s)*BrHtautauRatio();
 }

◆ muTHUggHWW()

double HiggsChiral::muTHUggHWW ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,WW}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,WW}$

Reimplemented from NPbase.

Definition at line 1127 of file HiggsChiral.cpp.

 {
     return muggH(sqrt_s)*BrHWWRatio();
 }

◆ muTHUggHWW2l2v()

double HiggsChiral::muTHUggHWW2l2v ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,WW\to 2l2\nu}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,WW\to 2l2\nu}$

Reimplemented from NPbase.

Definition at line 1157 of file HiggsChiral.cpp.

 {
     return muggH(sqrt_s)*BrHWW2l2vRatio();
 }

◆ muTHUggHZga()

double HiggsChiral::muTHUggHZga ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,Z\gamma}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,Z\gamma}$

Reimplemented from NPbase.

Definition at line 1037 of file HiggsChiral.cpp.

 {
     return muggH(sqrt_s)*BrHZgaRatio();
 }

◆ muTHUggHZgamumu()

double HiggsChiral::muTHUggHZgamumu ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,Z\gamma\to \gamma 2\mu}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $Z \gamma\to \gamma 2\mu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,Z\gamma\to \gamma 2\mu}$

Reimplemented from NPbase.

Definition at line 1302 of file HiggsChiral.cpp.

 {
     return muggH(sqrt_s)*BrHZgamumuRatio();
 }

◆ muTHUggHZZ()

double HiggsChiral::muTHUggHZZ ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,ZZ}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,ZZ}$

Reimplemented from NPbase.

Definition at line 1067 of file HiggsChiral.cpp.

 {
     return muggH(sqrt_s)*BrHZZRatio();
 }

◆ muTHUggHZZ4l()

double HiggsChiral::muTHUggHZZ4l ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,ZZ\to 4l}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,ZZ\to 4l}$

Reimplemented from NPbase.

Definition at line 1097 of file HiggsChiral.cpp.

 {
     return muggH(sqrt_s)*BrHZZ4lRatio();
 }

◆ muTHUggHZZ4mu()

double HiggsChiral::muTHUggHZZ4mu ( const double sqrt_s ) const

virtual

The ratio $\mu_{ggH,ZZ\to 4\mu}$ between the gluon-gluon fusion Higgs production cross-section with subsequent decay into $Z Z^*\to 4\mu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ggH,ZZ\to 4\mu}$

Reimplemented from NPbase.

Definition at line 1297 of file HiggsChiral.cpp.

 {
     return muggH(sqrt_s)*BrHZZ4muRatio();
 }

◆ muTHUttHbb()

double HiggsChiral::muTHUttHbb ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,bb}$ between the ttH production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,bb}$

Reimplemented from NPbase.

Definition at line 1272 of file HiggsChiral.cpp.

 {
     return muttH(sqrt_s)*BrHbbRatio();
 }

◆ muTHUttHgaga()

double HiggsChiral::muTHUttHgaga ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,\gamma\gamma}$ between the ttH production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,\gamma\gamma}$

Reimplemented from NPbase.

Definition at line 1032 of file HiggsChiral.cpp.

 {
     return muttH(sqrt_s)*BrHgagaRatio();
 }

◆ muTHUttHmumu()

double HiggsChiral::muTHUttHmumu ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,\mu\mu}$ between the ttH production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,\mu\mu}$

Reimplemented from NPbase.

Definition at line 1212 of file HiggsChiral.cpp.

 {
     return muttH(sqrt_s)*BrHmumuRatio();
 }

◆ muTHUttHtautau()

double HiggsChiral::muTHUttHtautau ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,\tau\tau}$ between the ttH production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,\tau\tau}$

Reimplemented from NPbase.

Definition at line 1242 of file HiggsChiral.cpp.

 {
     return muttH(sqrt_s)*BrHtautauRatio();
 }

◆ muTHUttHWW()

double HiggsChiral::muTHUttHWW ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,WW}$ between the ttH production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,WW}$

Reimplemented from NPbase.

Definition at line 1152 of file HiggsChiral.cpp.

 {
     return muttH(sqrt_s)*BrHWWRatio();
 }

◆ muTHUttHWW2l2v()

double HiggsChiral::muTHUttHWW2l2v ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,WW\to 2l2\nu}$ between the ttH production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,WW\to 2l2\nu}$

Reimplemented from NPbase.

Definition at line 1182 of file HiggsChiral.cpp.

 {
     return muttH(sqrt_s)*BrHWW2l2vRatio();
 }

◆ muTHUttHZga()

double HiggsChiral::muTHUttHZga ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,Z\gamma}$ between the ttH production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,Z\gamma}$

Reimplemented from NPbase.

Definition at line 1062 of file HiggsChiral.cpp.

 {
     return muttH(sqrt_s)*BrHZgaRatio();
 }

◆ muTHUttHZZ()

double HiggsChiral::muTHUttHZZ ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,ZZ}$ between the ttH production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,ZZ}$

Reimplemented from NPbase.

Definition at line 1092 of file HiggsChiral.cpp.

 {
     return muttH(sqrt_s)*BrHZZRatio();
 }

◆ muTHUttHZZ4l()

double HiggsChiral::muTHUttHZZ4l ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,ZZ\to 4l}$ between the ttH production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,ZZ\to 4l}$

Reimplemented from NPbase.

Definition at line 1122 of file HiggsChiral.cpp.

 {
     return muttH(sqrt_s)*BrHZZ4lRatio();
 }

◆ muTHUVBFBRinv()

double HiggsChiral::muTHUVBFBRinv ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF}$ between the VBF production cross-section in the current model and in the Standard Model, multiplied by the total (SM+new physics) invisible decay branching ratio.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF}BR_{inv}$

Reimplemented from NPbase.

Definition at line 1277 of file HiggsChiral.cpp.

 {
     return muVBF(sqrt_s)*Br_H_inv();
 }

◆ muTHUVBFHbb()

double HiggsChiral::muTHUVBFHbb ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,bb}$ between the VBF Higgs production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,bb}$

Reimplemented from NPbase.

Definition at line 1252 of file HiggsChiral.cpp.

 {
     return muVBF(sqrt_s)*BrHbbRatio();
 }

◆ muTHUVBFHgaga()

double HiggsChiral::muTHUVBFHgaga ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,\gamma\gamma}$ between the VBF Higgs production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,\gamma\gamma}$

Reimplemented from NPbase.

Definition at line 1012 of file HiggsChiral.cpp.

 {
     return muVBF(sqrt_s)*BrHgagaRatio();
 }

◆ muTHUVBFHinv()

double HiggsChiral::muTHUVBFHinv ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,inv}$ between the VBF production cross-section with subsequent decay into invisible states in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,inv}$

Reimplemented from NPbase.

Definition at line 1282 of file HiggsChiral.cpp.

 {
     return muVBF(sqrt_s)*BrHtoinvRatio();
 }

◆ muTHUVBFHmumu()

double HiggsChiral::muTHUVBFHmumu ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,\mu\mu}$ between the VBF Higgs production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,\mu\mu}$

Reimplemented from NPbase.

Definition at line 1192 of file HiggsChiral.cpp.

 {
     return muVBF(sqrt_s)*BrHmumuRatio();
 }

◆ muTHUVBFHtautau()

double HiggsChiral::muTHUVBFHtautau ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,\tau\tau}$ between the VBF Higgs production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,\tau\tau}$

Reimplemented from NPbase.

Definition at line 1222 of file HiggsChiral.cpp.

 {
     return muVBF(sqrt_s)*BrHtautauRatio();
 }

◆ muTHUVBFHWW()

double HiggsChiral::muTHUVBFHWW ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,WW}$ between the VBF Higgs production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,WW}$

Reimplemented from NPbase.

Definition at line 1132 of file HiggsChiral.cpp.

 {
     return muVBF(sqrt_s)*BrHWWRatio();
 }

◆ muTHUVBFHWW2l2v()

double HiggsChiral::muTHUVBFHWW2l2v ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,WW\to 2l2\nu}$ between the VBF Higgs production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,WW\to 2l2\nu}$

Reimplemented from NPbase.

Definition at line 1162 of file HiggsChiral.cpp.

 {
     return muVBF(sqrt_s)*BrHWW2l2vRatio();
 }

◆ muTHUVBFHZga()

double HiggsChiral::muTHUVBFHZga ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,Z\gamma}$ between the VBF Higgs production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,Z\gamma}$

Reimplemented from NPbase.

Definition at line 1042 of file HiggsChiral.cpp.

 {
     return muVBF(sqrt_s)*BrHZgaRatio();
 }

◆ muTHUVBFHZZ()

double HiggsChiral::muTHUVBFHZZ ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,ZZ}$ between the VBF Higgs production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,ZZ}$

Reimplemented from NPbase.

Definition at line 1072 of file HiggsChiral.cpp.

 {
     return muVBF(sqrt_s)*BrHZZRatio();
 }

◆ muTHUVBFHZZ4l()

double HiggsChiral::muTHUVBFHZZ4l ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,ZZ\to 4l}$ between the VBF Higgs production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,ZZ\to 4l}$

Reimplemented from NPbase.

Definition at line 1102 of file HiggsChiral.cpp.

 {
     return muVBF(sqrt_s)*BrHZZ4lRatio();
 }

◆ muTHUVHbb()

double HiggsChiral::muTHUVHbb ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,bb}$ between the VH production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,bb}$

Reimplemented from NPbase.

Definition at line 1267 of file HiggsChiral.cpp.

 {
     return muVH(sqrt_s)*BrHbbRatio();
 }

◆ muTHUVHBRinv()

double HiggsChiral::muTHUVHBRinv ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH}$ between the VH production cross-section in the current model and in the Standard Model, multiplied by the total (SM+new physics) invisible decay branching ratio.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH}BR_{inv}$

Reimplemented from NPbase.

Definition at line 1287 of file HiggsChiral.cpp.

 {
     return muVH(sqrt_s)*Br_H_inv();
 }

◆ muTHUVHgaga()

double HiggsChiral::muTHUVHgaga ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,\gamma\gamma}$ between the VH production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,\gamma\gamma}$

Reimplemented from NPbase.

Definition at line 1027 of file HiggsChiral.cpp.

 {
     return muVH(sqrt_s)*BrHgagaRatio();
 }

◆ muTHUVHinv()

double HiggsChiral::muTHUVHinv ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,inv}$ between the VH production cross-section with subsequent decay into invisible states in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,inv}$

Reimplemented from NPbase.

Definition at line 1292 of file HiggsChiral.cpp.

 {
     return muVH(sqrt_s)*BrHtoinvRatio();
 }

◆ muTHUVHmumu()

double HiggsChiral::muTHUVHmumu ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,\mu\mu}$ between the VH production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,\mu\mu}$

Reimplemented from NPbase.

Definition at line 1207 of file HiggsChiral.cpp.

 {
     return muVH(sqrt_s)*BrHmumuRatio();
 }

◆ muTHUVHtautau()

double HiggsChiral::muTHUVHtautau ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,\tau\tau}$ between the VH production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,\tau\tau}$

Reimplemented from NPbase.

Definition at line 1237 of file HiggsChiral.cpp.

 {
     return muVH(sqrt_s)*BrHtautauRatio();
 }

◆ muTHUVHWW()

double HiggsChiral::muTHUVHWW ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,WW}$ between the VH production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,WW}$

Reimplemented from NPbase.

Definition at line 1147 of file HiggsChiral.cpp.

 {
     return muVH(sqrt_s)*BrHWWRatio();
 }

◆ muTHUVHWW2l2v()

double HiggsChiral::muTHUVHWW2l2v ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,WW\to 2l2\nu}$ between the VH production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,WW\to 2l2\nu}$

Reimplemented from NPbase.

Definition at line 1177 of file HiggsChiral.cpp.

 {
     return muVH(sqrt_s)*BrHWW2l2vRatio();
 }

◆ muTHUVHZga()

double HiggsChiral::muTHUVHZga ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,Z\gamma}$ between the VH production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,Z\gamma}$

Reimplemented from NPbase.

Definition at line 1057 of file HiggsChiral.cpp.

 {
     return muVH(sqrt_s)*BrHZgaRatio();
 }

◆ muTHUVHZZ()

double HiggsChiral::muTHUVHZZ ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,ZZ}$ between the VH production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,ZZ}$

Reimplemented from NPbase.

Definition at line 1087 of file HiggsChiral.cpp.

 {
     return muVH(sqrt_s)*BrHZZRatio();
 }

◆ muTHUVHZZ4l()

double HiggsChiral::muTHUVHZZ4l ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,ZZ\to 4l}$ between the VH production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,ZZ\to 4l}$

Reimplemented from NPbase.

Definition at line 1117 of file HiggsChiral.cpp.

 {
     return muVH(sqrt_s)*BrHZZ4lRatio();
 }

◆ muTHUWHbb()

double HiggsChiral::muTHUWHbb ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,bb}$ between the WH production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,bb}$

Reimplemented from NPbase.

Definition at line 1262 of file HiggsChiral.cpp.

 {
     return muWH(sqrt_s)*BrHbbRatio();
 }

◆ muTHUWHgaga()

double HiggsChiral::muTHUWHgaga ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,\gamma\gamma}$ between the WH production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,\gamma\gamma}$

Reimplemented from NPbase.

Definition at line 1022 of file HiggsChiral.cpp.

 {
     return muWH(sqrt_s)*BrHgagaRatio();
 }

◆ muTHUWHmumu()

double HiggsChiral::muTHUWHmumu ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,\mu\mu}$ between the WH production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,\mu\mu}$

Reimplemented from NPbase.

Definition at line 1202 of file HiggsChiral.cpp.

 {
     return muWH(sqrt_s)*BrHmumuRatio();
 }

◆ muTHUWHtautau()

double HiggsChiral::muTHUWHtautau ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,\tau\tau}$ between the WH production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,\tau\tau}$

Reimplemented from NPbase.

Definition at line 1232 of file HiggsChiral.cpp.

 {
     return muWH(sqrt_s)*BrHtautauRatio();
 }

◆ muTHUWHWW()

double HiggsChiral::muTHUWHWW ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,WW}$ between the WH production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,WW}$

Reimplemented from NPbase.

Definition at line 1142 of file HiggsChiral.cpp.

 {
     return muWH(sqrt_s)*BrHWWRatio();
 }

◆ muTHUWHWW2l2v()

double HiggsChiral::muTHUWHWW2l2v ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,WW\to 2l2\nu}$ between the WH production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,WW\to 2l2\nu}$

Reimplemented from NPbase.

Definition at line 1172 of file HiggsChiral.cpp.

 {
     return muWH(sqrt_s)*BrHWW2l2vRatio();
 }

◆ muTHUWHZga()

double HiggsChiral::muTHUWHZga ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,Z\gamma}$ between the WH production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,Z\gamma}$

Reimplemented from NPbase.

Definition at line 1052 of file HiggsChiral.cpp.

 {
     return muWH(sqrt_s)*BrHZgaRatio();
 }

◆ muTHUWHZZ()

double HiggsChiral::muTHUWHZZ ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,ZZ}$ between the WH production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,ZZ}$

Reimplemented from NPbase.

Definition at line 1082 of file HiggsChiral.cpp.

 {
     return muWH(sqrt_s)*BrHZZRatio();
 }

◆ muTHUWHZZ4l()

double HiggsChiral::muTHUWHZZ4l ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,ZZ\to 4l}$ between the WH production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,ZZ\to 4l}$

Reimplemented from NPbase.

Definition at line 1112 of file HiggsChiral.cpp.

 {
     return muWH(sqrt_s)*BrHZZ4lRatio();
 }

◆ muTHUZHbb()

double HiggsChiral::muTHUZHbb ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,bb}$ between the ZH production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,bb}$

Reimplemented from NPbase.

Definition at line 1257 of file HiggsChiral.cpp.

 {
     return muZH(sqrt_s)*BrHbbRatio();
 }

◆ muTHUZHgaga()

double HiggsChiral::muTHUZHgaga ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,\gamma\gamma}$ between the ZH production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,\gamma\gamma}$

Reimplemented from NPbase.

Definition at line 1017 of file HiggsChiral.cpp.

 {
     return muZH(sqrt_s)*BrHgagaRatio();
 }

◆ muTHUZHmumu()

double HiggsChiral::muTHUZHmumu ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,\mu\mu}$ between the ZH production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,\mu\mu}$

Reimplemented from NPbase.

Definition at line 1197 of file HiggsChiral.cpp.

 {
     return muZH(sqrt_s)*BrHmumuRatio();
 }

◆ muTHUZHtautau()

double HiggsChiral::muTHUZHtautau ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,\tau\tau}$ between the ZH production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,\tau\tau}$

Reimplemented from NPbase.

Definition at line 1227 of file HiggsChiral.cpp.

 {
     return muZH(sqrt_s)*BrHtautauRatio();
 }

◆ muTHUZHWW()

double HiggsChiral::muTHUZHWW ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,WW}$ between the ZH production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,WW}$

Reimplemented from NPbase.

Definition at line 1137 of file HiggsChiral.cpp.

 {
     return muZH(sqrt_s)*BrHWWRatio();
 }

◆ muTHUZHWW2l2v()

double HiggsChiral::muTHUZHWW2l2v ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,WW\to 2l2\nu}$ between the ZH production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,WW\to 2l2\nu}$

Reimplemented from NPbase.

Definition at line 1167 of file HiggsChiral.cpp.

 {
     return muZH(sqrt_s)*BrHWW2l2vRatio();
 }

◆ muTHUZHZga()

double HiggsChiral::muTHUZHZga ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,Z\gamma}$ between the ZH production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,Z\gamma}$

Reimplemented from NPbase.

Definition at line 1047 of file HiggsChiral.cpp.

 {
     return muZH(sqrt_s)*BrHZgaRatio();
 }

◆ muTHUZHZZ()

double HiggsChiral::muTHUZHZZ ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,ZZ}$ between the ZH production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,ZZ}$

Reimplemented from NPbase.

Definition at line 1077 of file HiggsChiral.cpp.

 {
     return muZH(sqrt_s)*BrHZZRatio();
 }

◆ muTHUZHZZ4l()

double HiggsChiral::muTHUZHZZ4l ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,ZZ\to 4l}$ between the ZH production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,ZZ\to 4l}$

Reimplemented from NPbase.

Definition at line 1107 of file HiggsChiral.cpp.

 {
     return muZH(sqrt_s)*BrHZZ4lRatio();
 }

◆ muttH()

double HiggsChiral::muttH ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH}$ between the t-tbar-Higgs associated production cross-section in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH}$

Reimplemented from NPbase.

Definition at line 263 of file HiggsChiral.cpp.

 {
     return computect() * computect();
 }

◆ muttHbb()

double HiggsChiral::muttHbb ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,bb}$ between the ttH production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,bb}$

Reimplemented from NPbase.

Definition at line 979 of file HiggsChiral.cpp.

 {
     return computect() * computect() * computecb() * computecb() / computeGammaTotalRatio();
 }

◆ muttHgaga()

double HiggsChiral::muttHgaga ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,\gamma\gamma}$ between the ttH production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,\gamma\gamma}$

Reimplemented from NPbase.

Definition at line 739 of file HiggsChiral.cpp.

 {
     return computect() * computect() * computecgaga() * computecgaga() / computeGammaTotalRatio();
 }

◆ muttHmumu()

double HiggsChiral::muttHmumu ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,\mu\mu}$ between the ttH production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,\mu\mu}$

Reimplemented from NPbase.

Definition at line 919 of file HiggsChiral.cpp.

 {
     return computect() * computect() * computecmu() * computecmu() / computeGammaTotalRatio();
 }

◆ muttHtautau()

double HiggsChiral::muttHtautau ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,\tau\tau}$ between the ttH production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,\tau\tau}$

Reimplemented from NPbase.

Definition at line 949 of file HiggsChiral.cpp.

 {
     return computect() * computect() * computectau() * computectau() / computeGammaTotalRatio();
 }

◆ muttHWW()

double HiggsChiral::muttHWW ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,WW}$ between the ttH production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,WW}$

Reimplemented from NPbase.

Definition at line 859 of file HiggsChiral.cpp.

 {
     return computect() * computect() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muttHWW2l2v()

double HiggsChiral::muttHWW2l2v ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,WW\to 2l2\nu}$ between the ttH production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,WW\to 2l2\nu}$

Reimplemented from NPbase.

Definition at line 889 of file HiggsChiral.cpp.

 {
     return computect() * computect() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muttHZga()

double HiggsChiral::muttHZga ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,Z\gamma}$ between the ttH production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,Z\gamma}$

Reimplemented from NPbase.

Definition at line 769 of file HiggsChiral.cpp.

 {
     return computect() * computect() * computecZga() * computecZga() / computeGammaTotalRatio();
 }

◆ muttHZZ()

double HiggsChiral::muttHZZ ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,ZZ}$ between the ttH production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,ZZ}$

Reimplemented from NPbase.

Definition at line 799 of file HiggsChiral.cpp.

 {
     return computect() * computect() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muttHZZ4l()

double HiggsChiral::muttHZZ4l ( const double sqrt_s ) const

virtual

The ratio $\mu_{ttH,ZZ\to 4l}$ between the ttH production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ttH,ZZ\to 4l}$

Reimplemented from NPbase.

Definition at line 829 of file HiggsChiral.cpp.

 {
     return computect() * computect() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muVBF()

double HiggsChiral::muVBF ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF}$ between the vector-boson fusion Higgs production cross-section in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF}$

Reimplemented from NPbase.

Definition at line 173 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ muVBFgamma()

double HiggsChiral::muVBFgamma ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF+\gamma}$ between the vector-boson fusion Higgs production cross-section in association with a hard photon in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF+\gamma}$

Reimplemented from NPbase.

Definition at line 178 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ muVBFHbb()

double HiggsChiral::muVBFHbb ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,bb}$ between the VBF Higgs production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,bb}$

Reimplemented from NPbase.

Definition at line 959 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecb() * computecb() / computeGammaTotalRatio();
 }

◆ muVBFHgaga()

double HiggsChiral::muVBFHgaga ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,\gamma\gamma}$ between the VBF Higgs production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,\gamma\gamma}$

Reimplemented from NPbase.

Definition at line 719 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecgaga() * computecgaga() / computeGammaTotalRatio();
 }

◆ muVBFHmumu()

double HiggsChiral::muVBFHmumu ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,\mu\mu}$ between the VBF Higgs production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,\mu\mu}$

Reimplemented from NPbase.

Definition at line 899 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecmu() * computecmu() / computeGammaTotalRatio();
 }

◆ muVBFHtautau()

double HiggsChiral::muVBFHtautau ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,\tau\tau}$ between the VBF Higgs production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,\tau\tau}$

Reimplemented from NPbase.

Definition at line 929 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computectau() * computectau() / computeGammaTotalRatio();
 }

◆ muVBFHWW()

double HiggsChiral::muVBFHWW ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,WW}$ between the VBF Higgs production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,WW}$

Reimplemented from NPbase.

Definition at line 839 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muVBFHWW2l2v()

double HiggsChiral::muVBFHWW2l2v ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,WW\to 2l2\nu}$ between the VBF Higgs production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,WW\to 2l2\nu}$

Reimplemented from NPbase.

Definition at line 869 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muVBFHZga()

double HiggsChiral::muVBFHZga ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,Z\gamma}$ between the VBF Higgs production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,Z\gamma}$

Reimplemented from NPbase.

Definition at line 749 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecZga() * computecZga() / computeGammaTotalRatio();
 }

◆ muVBFHZZ()

double HiggsChiral::muVBFHZZ ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,ZZ}$ between the VBF Higgs production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,ZZ}$

Reimplemented from NPbase.

Definition at line 779 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muVBFHZZ4l()

double HiggsChiral::muVBFHZZ4l ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF,ZZ\to 4l}$ between the VBF Higgs production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF,ZZ\to 4l}$

Reimplemented from NPbase.

Definition at line 809 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muVBFpVH()

double HiggsChiral::muVBFpVH ( const double sqrt_s ) const

virtual

The ratio $\mu_{VBF+VH}$ between the sum of VBF and WH+ZH associated production cross-section in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VBF+VH}$

Reimplemented from NPbase.

Definition at line 258 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ muVH()

double HiggsChiral::muVH ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH}$ between the WH+ZH associated production cross-section in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH}$

Reimplemented from NPbase.

Definition at line 253 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ muVHbb()

double HiggsChiral::muVHbb ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,bb}$ between the VH production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,bb}$

Reimplemented from NPbase.

Definition at line 974 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecb() * computecb() / computeGammaTotalRatio();
 }

◆ muVHgaga()

double HiggsChiral::muVHgaga ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,\gamma\gamma}$ between the VH production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,\gamma\gamma}$

Reimplemented from NPbase.

Definition at line 734 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecgaga() * computecgaga() / computeGammaTotalRatio();
 }

◆ muVHmumu()

double HiggsChiral::muVHmumu ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,\mu\mu}$ between the VH production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,\mu\mu}$

Reimplemented from NPbase.

Definition at line 914 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecmu() * computecmu() / computeGammaTotalRatio();
 }

◆ muVHtautau()

double HiggsChiral::muVHtautau ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,\tau\tau}$ between the VH production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,\tau\tau}$

Reimplemented from NPbase.

Definition at line 944 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computectau() * computectau() / computeGammaTotalRatio();
 }

◆ muVHWW()

double HiggsChiral::muVHWW ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,WW}$ between the VH production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,WW}$

Reimplemented from NPbase.

Definition at line 854 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muVHWW2l2v()

double HiggsChiral::muVHWW2l2v ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,WW\to 2l2\nu}$ between the VH production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,WW\to 2l2\nu}$

Reimplemented from NPbase.

Definition at line 884 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muVHZga()

double HiggsChiral::muVHZga ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,Z\gamma}$ between the VH production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,Z\gamma}$

Reimplemented from NPbase.

Definition at line 764 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecZga() * computecZga() / computeGammaTotalRatio();
 }

◆ muVHZZ()

double HiggsChiral::muVHZZ ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,ZZ}$ between the VH production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,ZZ}$

Reimplemented from NPbase.

Definition at line 794 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muVHZZ4l()

double HiggsChiral::muVHZZ4l ( const double sqrt_s ) const

virtual

The ratio $\mu_{VH,ZZ\to 4l}$ between the VH production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{VH,ZZ\to 4l}$

Reimplemented from NPbase.

Definition at line 824 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muWH()

double HiggsChiral::muWH ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH}$ between the W-Higgs associated production cross-section in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH}$

Reimplemented from NPbase.

Definition at line 213 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ muWHbb()

double HiggsChiral::muWHbb ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,bb}$ between the WH production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,bb}$

Reimplemented from NPbase.

Definition at line 969 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecb() * computecb() / computeGammaTotalRatio();
 }

◆ muWHgaga()

double HiggsChiral::muWHgaga ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,\gamma\gamma}$ between the WH production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,\gamma\gamma}$

Reimplemented from NPbase.

Definition at line 729 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecgaga() * computecgaga() / computeGammaTotalRatio();
 }

◆ muWHmumu()

double HiggsChiral::muWHmumu ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,\mu\mu}$ between the WH production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,\mu\mu}$

Reimplemented from NPbase.

Definition at line 909 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecmu() * computecmu() / computeGammaTotalRatio();
 }

◆ muWHtautau()

double HiggsChiral::muWHtautau ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,\tau\tau}$ between the WH production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,\tau\tau}$

Reimplemented from NPbase.

Definition at line 939 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computectau() * computectau() / computeGammaTotalRatio();
 }

◆ muWHWW()

double HiggsChiral::muWHWW ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,WW}$ between the WH production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,WW}$

Reimplemented from NPbase.

Definition at line 849 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muWHWW2l2v()

double HiggsChiral::muWHWW2l2v ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,WW\to 2l2\nu}$ between the WH production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,WW\to 2l2\nu}$

Reimplemented from NPbase.

Definition at line 879 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muWHZga()

double HiggsChiral::muWHZga ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,Z\gamma}$ between the WH production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,Z\gamma}$

Reimplemented from NPbase.

Definition at line 759 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecZga() * computecZga() / computeGammaTotalRatio();
 }

◆ muWHZZ()

double HiggsChiral::muWHZZ ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,ZZ}$ between the WH production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,ZZ}$

Reimplemented from NPbase.

Definition at line 789 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muWHZZ4l()

double HiggsChiral::muWHZZ4l ( const double sqrt_s ) const

virtual

The ratio $\mu_{WH,ZZ\to 4l}$ between the WH production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{WH,ZZ\to 4l}$

Reimplemented from NPbase.

Definition at line 819 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muZH()

double HiggsChiral::muZH ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH}$ between the Z-Higgs associated production cross-section in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH}$

Reimplemented from NPbase.

Definition at line 218 of file HiggsChiral.cpp.

 {
     return computecV() * computecV();
 }

◆ muZHbb()

double HiggsChiral::muZHbb ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,bb}$ between the ZH production cross-section with subsequent decay into $bb$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,bb}$

Reimplemented from NPbase.

Definition at line 964 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecb() * computecb() / computeGammaTotalRatio();
 }

◆ muZHgaga()

double HiggsChiral::muZHgaga ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,\gamma\gamma}$ between the ZH production cross-section with subsequent decay into 2 photons in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,\gamma\gamma}$

Reimplemented from NPbase.

Definition at line 724 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecgaga() * computecgaga() / computeGammaTotalRatio();
 }

◆ muZHmumu()

double HiggsChiral::muZHmumu ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,\mu\mu}$ between the ZH production cross-section with subsequent decay into $\mu\mu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,\mu\mu}$

Reimplemented from NPbase.

Definition at line 904 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecmu() * computecmu() / computeGammaTotalRatio();
 }

◆ muZHtautau()

double HiggsChiral::muZHtautau ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,\tau\tau}$ between the ZH production cross-section with subsequent decay into $\tau\tau$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,\tau\tau}$

Reimplemented from NPbase.

Definition at line 934 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computectau() * computectau() / computeGammaTotalRatio();
 }

◆ muZHWW()

double HiggsChiral::muZHWW ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,WW}$ between the ZH production cross-section with subsequent decay into $W W^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,WW}$

Reimplemented from NPbase.

Definition at line 844 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muZHWW2l2v()

double HiggsChiral::muZHWW2l2v ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,WW\to 2l2\nu}$ between the ZH production cross-section with subsequent decay into $W W^*\to 2l2\nu$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,WW\to 2l2\nu}$

Reimplemented from NPbase.

Definition at line 874 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muZHZga()

double HiggsChiral::muZHZga ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,Z\gamma}$ between the ZH production cross-section with subsequent decay into $Z \gamma$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,Z\gamma}$

Reimplemented from NPbase.

Definition at line 754 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecZga() * computecZga() / computeGammaTotalRatio();
 }

◆ muZHZZ()

double HiggsChiral::muZHZZ ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,ZZ}$ between the ZH production cross-section with subsequent decay into $Z Z^*$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,ZZ}$

Reimplemented from NPbase.

Definition at line 784 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ muZHZZ4l()

double HiggsChiral::muZHZZ4l ( const double sqrt_s ) const

virtual

The ratio $\mu_{ZH,ZZ\to 4l}$ between the ZH production cross-section with subsequent decay into $Z Z^*\to 4l$ in the current model and in the Standard Model.

Parameters

[in] sqrt_s the center-of-mass energy in TeV

Returns: $\mu_{ZH,ZZ\to 4l}$

Reimplemented from NPbase.

Definition at line 814 of file HiggsChiral.cpp.

 {
     return computecV() * computecV() * computecV() * computecV() / computeGammaTotalRatio();
 }

◆ obliqueS()

double HiggsChiral::obliqueS ( ) const

virtual

The oblique parameter $S$.

Returns: $S$

Reimplemented from NPbase.

Definition at line 136 of file HiggsChiral.cpp.

 {
     double Lambda;
     if (fabs(1.0 - cv * cv) < pow(10.0, -32.0))
         Lambda = pow(10.0, 19.0);
     else
         Lambda = 4.0 * M_PI * v() / sqrt(fabs(1.0 - cv * cv));
  
     return ( 1.0 / 12.0 / M_PI * (1.0 - cv * cv) * log(Lambda * Lambda / mHl / mHl));
 }

◆ obliqueT()

double HiggsChiral::obliqueT ( ) const

virtual

The oblique parameter $T$.

Returns: $T$

Reimplemented from NPbase.

Definition at line 147 of file HiggsChiral.cpp.

 {
     double Lambda;
     double cW2_SM = trueSM.cW2();
     if (fabs(1.0 - cv * cv) < pow(10.0, -32.0))
         Lambda = pow(10.0, 19.0);
     else
         Lambda = 4.0 * M_PI * v() / sqrt(fabs(1.0 - cv * cv));
  
     return ( -3.0 / 16.0 / M_PI / cW2_SM * (1.0 - cv * cv) * log(Lambda * Lambda / mHl / mHl));
 }

◆ obliqueU()

double HiggsChiral::obliqueU ( ) const

virtual

The oblique parameter $U$.

Returns: $U=0$

Reimplemented from NPbase.

Definition at line 159 of file HiggsChiral.cpp.

 {
     return 0.0;
 }

◆ PostUpdate()

bool HiggsChiral::PostUpdate ( )

virtual

The post-update method for HiggsChiral.

This method runs all the procedures that are need to be executed after the model is successfully updated.

Returns: a boolean that is true if the execution is successful

Reimplemented from NPbase.

Definition at line 43 of file HiggsChiral.cpp.

 {
     if (!NPbase::PostUpdate()) return (false);
  
 //  Check first the flags that control the values of the parameters    
  
     if (FlagUniversalcf) {
 //  Assign to all cf the value of ct
         cb = ct;
         cc = ct;
         ctau = ct;
         cmu = ct;
     }
  
 //  Then the add the values of the loops to the cache
     
     loopComputed = false;
     
     cg_loop = computecg();
     cga_loop = computecgaga();
     cZga_loop = computecZga();
     
     loopComputed = true;
  
     return (true);
 }

◆ setFlag()

bool HiggsChiral::setFlag	(	const std::string	name,
		const bool	value
	)

virtual

A method to set a flag of HiggsChiral.

Parameters

[in]	name	name of a model flag
[in]	value	the boolean to be assigned to the flag specified by name

Returns: a boolean that is true if the execution is successful

Reimplemented from StandardModel.

Definition at line 122 of file HiggsChiral.cpp.

 {
     bool res = false;
     if (name.compare("Universalcf") == 0) {
         FlagUniversalcf = value;
         res = true;
     } else
         res = NPbase::setFlag(name, value);
  
     return (res);
 }

◆ setParameter()

void HiggsChiral::setParameter	(	const std::string	name,
		const double &	value
	)

protectedvirtual

A method to set the value of a parameter of HiggsChiral.

Parameters

[in]	name	name of a model parameter
[in]	value	the value to be assigned to the parameter specified by name

Reimplemented from StandardModel.

Definition at line 70 of file HiggsChiral.cpp.

 {
     if (name.compare("cv") == 0)
         cv = value;
     else if (name.compare("ct") == 0)
         ct = value;
     else if (name.compare("cb") == 0)
         cb = value;
     else if (name.compare("cc") == 0)
         cc = value;
     else if (name.compare("ctau") == 0)
         ctau = value;
     else if (name.compare("cmu") == 0)
         cmu = value;
     else if (name.compare("cg") == 0)
         cg = value;
     else if (name.compare("cga") == 0)
         cga = value;
     else if (name.compare("cZga") == 0)
         cZga = value;
     else if (name.compare("obsZgaLimitATLAS13") == 0)
         obsZgaLimitATLAS13 = value;
     else if (name.compare("obsZgaLimitCMS13") == 0)
         obsZgaLimitCMS13 = value;
     else if (name.compare("obsZgaLimitATLAS") == 0)
         obsZgaLimitATLAS = value;
     else if (name.compare("obsZgaLimitCMS") == 0)
         obsZgaLimitCMS = value;
     else if (name.compare("expZgaLimitATLAS13") == 0)
         expZgaLimitATLAS13 = value;
     else if (name.compare("expZgaLimitCMS13") == 0)
         expZgaLimitCMS13 = value;
     else if (name.compare("expZgaLimitATLAS") == 0)
         expZgaLimitATLAS = value;
     else if (name.compare("expZgaLimitCMS") == 0)
         expZgaLimitCMS = value;
     else
         NPbase::setParameter(name, value);
 }

◆ UpperLimitZgammaA()

double HiggsChiral::UpperLimitZgammaA ( const double sqrt_s ) const

virtual

Observable implementing the contribution to the likelihood from the upper limit in $pp \to H \to Z\gamma$ from ATLAS.

Returns: Observable for the upper limit in $pp \to H \to Z\gamma$

Reimplemented from NPbase.

Definition at line 349 of file HiggsChiral.cpp.

 {
     double sigmaggH_SM = trueSM.computeSigmaggH(sqrt_s);
     double sigmattH_SM = trueSM.computeSigmattH(sqrt_s);
     double sigmaWH_SM = trueSM.computeSigmaWH(sqrt_s);
     double sigmaZH_SM = trueSM.computeSigmaZH(sqrt_s);
     double sigmaWF_SM = trueSM.computeSigmaWF(sqrt_s);
     double sigmaZF_SM = trueSM.computeSigmaZF(sqrt_s);
     double sigmaZWF_SM = trueSM.computeSigmaZWF(sqrt_s);    
     double sigmaVBF_SM = sigmaWF_SM + sigmaZF_SM + sigmaZWF_SM;
  
     double sigmaggH = muggH(sqrt_s) * sigmaggH_SM;
     double sigmattH = muttH(sqrt_s) * sigmattH_SM;
     double sigmaWH = muWH(sqrt_s) * sigmaWH_SM;
     double sigmaZH = muZH(sqrt_s) * sigmaZH_SM;
     double sigmaVBF = muVBF(sqrt_s) * sigmaVBF_SM;
  
     double muppH=((sigmaggH + sigmattH + sigmaWH + sigmaZH + sigmaVBF) / (sigmaggH_SM + sigmattH_SM + sigmaWH_SM + sigmaZH_SM + sigmaVBF_SM));
 //    double BrHZgaRatio=;
     double nftos=1.95996398454;
         
     return (1.0+(muppH*BrHZgaRatio()-getobsZgaLimitATLAS())/getexpZgaLimitATLAS() ) * nftos;
 }

◆ UpperLimitZgammaA13()

double HiggsChiral::UpperLimitZgammaA13 ( const double sqrt_s ) const

virtual

Observable implementing the contribution to the likelihood from the upper limit in $pp \to H \to Z\gamma$ from ATLAS at 13 TeV.

Returns: Observable for the upper limit in $pp \to H \to Z\gamma$

Reimplemented from NPbase.

Definition at line 301 of file HiggsChiral.cpp.

 {
     double sigmaggH_SM = trueSM.computeSigmaggH(sqrt_s);
     double sigmattH_SM = trueSM.computeSigmattH(sqrt_s);
     double sigmaWH_SM = trueSM.computeSigmaWH(sqrt_s);
     double sigmaZH_SM = trueSM.computeSigmaZH(sqrt_s);
     double sigmaWF_SM = trueSM.computeSigmaWF(sqrt_s);
     double sigmaZF_SM = trueSM.computeSigmaZF(sqrt_s);
     double sigmaZWF_SM = trueSM.computeSigmaZWF(sqrt_s);    
     double sigmaVBF_SM = sigmaWF_SM + sigmaZF_SM + sigmaZWF_SM;
  
     double sigmaggH = muggH(sqrt_s) * sigmaggH_SM;
     double sigmattH = muttH(sqrt_s) * sigmattH_SM;
     double sigmaWH = muWH(sqrt_s) * sigmaWH_SM;
     double sigmaZH = muZH(sqrt_s) * sigmaZH_SM;
     double sigmaVBF = muVBF(sqrt_s) * sigmaVBF_SM;
  
     double muppH=((sigmaggH + sigmattH + sigmaWH + sigmaZH + sigmaVBF) / (sigmaggH_SM + sigmattH_SM + sigmaWH_SM + sigmaZH_SM + sigmaVBF_SM));
 //    double BrHZgaRatio=;
     double nftos=1.95996398454;
         
     return (1.0+(muppH*BrHZgaRatio()-getobsZgaLimitATLAS13())/getexpZgaLimitATLAS13() ) * nftos;
 }

◆ UpperLimitZgammaC()

double HiggsChiral::UpperLimitZgammaC ( const double sqrt_s ) const

virtual

Observable implementing the contribution to the likelihood from the upper limit in $pp \to H \to Z\gamma$ from CMS.

Returns: Observable for the upper limit in $pp \to H \to Z\gamma$

Reimplemented from NPbase.

Definition at line 373 of file HiggsChiral.cpp.

 {
     double sigmaggH_SM = trueSM.computeSigmaggH(sqrt_s);
     double sigmattH_SM = trueSM.computeSigmattH(sqrt_s);
     double sigmaWH_SM = trueSM.computeSigmaWH(sqrt_s);
     double sigmaZH_SM = trueSM.computeSigmaZH(sqrt_s);
     double sigmaWF_SM = trueSM.computeSigmaWF(sqrt_s);
     double sigmaZF_SM = trueSM.computeSigmaZF(sqrt_s);
     double sigmaZWF_SM = trueSM.computeSigmaZWF(sqrt_s);    
     double sigmaVBF_SM = sigmaWF_SM + sigmaZF_SM + sigmaZWF_SM;
  
     double sigmaggH = muggH(sqrt_s) * sigmaggH_SM;
     double sigmattH = muttH(sqrt_s) * sigmattH_SM;
     double sigmaWH = muWH(sqrt_s) * sigmaWH_SM;
     double sigmaZH = muZH(sqrt_s) * sigmaZH_SM;
     double sigmaVBF = muVBF(sqrt_s) * sigmaVBF_SM;
  
     double muppH=((sigmaggH + sigmattH + sigmaWH + sigmaZH + sigmaVBF) / (sigmaggH_SM + sigmattH_SM + sigmaWH_SM + sigmaZH_SM + sigmaVBF_SM));
 //    double BrHZgaRatio=;
     double nftos=1.95996398454;
         
     return (1.0+(muppH*BrHZgaRatio()-getobsZgaLimitCMS())/getexpZgaLimitCMS() ) * nftos;
 }

◆ UpperLimitZgammaC13()

double HiggsChiral::UpperLimitZgammaC13 ( const double sqrt_s ) const

virtual

Observable implementing the contribution to the likelihood from the upper limit in $pp \to H \to Z\gamma$ from CMS at 13 TeV.

Returns: Observable for the upper limit in $pp \to H \to Z\gamma$

Reimplemented from NPbase.

Definition at line 325 of file HiggsChiral.cpp.

 {
     double sigmaggH_SM = trueSM.computeSigmaggH(sqrt_s);
     double sigmattH_SM = trueSM.computeSigmattH(sqrt_s);
     double sigmaWH_SM = trueSM.computeSigmaWH(sqrt_s);
     double sigmaZH_SM = trueSM.computeSigmaZH(sqrt_s);
     double sigmaWF_SM = trueSM.computeSigmaWF(sqrt_s);
     double sigmaZF_SM = trueSM.computeSigmaZF(sqrt_s);
     double sigmaZWF_SM = trueSM.computeSigmaZWF(sqrt_s);    
     double sigmaVBF_SM = sigmaWF_SM + sigmaZF_SM + sigmaZWF_SM;
  
     double sigmaggH = muggH(sqrt_s) * sigmaggH_SM;
     double sigmattH = muttH(sqrt_s) * sigmattH_SM;
     double sigmaWH = muWH(sqrt_s) * sigmaWH_SM;
     double sigmaZH = muZH(sqrt_s) * sigmaZH_SM;
     double sigmaVBF = muVBF(sqrt_s) * sigmaVBF_SM;
  
     double muppH=((sigmaggH + sigmattH + sigmaWH + sigmaZH + sigmaVBF) / (sigmaggH_SM + sigmattH_SM + sigmaWH_SM + sigmaZH_SM + sigmaVBF_SM));
 //    double BrHZgaRatio=;
     double nftos=1.95996398454;
         
     return (1.0+(muppH*BrHZgaRatio()-getobsZgaLimitCMS13())/getexpZgaLimitCMS13() ) * nftos;
 }

Member Data Documentation

◆ cb

double HiggsChiral::cb

private

Definition at line 1905 of file HiggsChiral.h.

◆ cc

double HiggsChiral::cc

private

Definition at line 1906 of file HiggsChiral.h.

◆ cg

double HiggsChiral::cg

private

Definition at line 1909 of file HiggsChiral.h.

◆ cg_loop

double HiggsChiral::cg_loop

private

Definition at line 1921 of file HiggsChiral.h.

◆ cga

double HiggsChiral::cga

private

Definition at line 1910 of file HiggsChiral.h.

◆ cga_loop

double HiggsChiral::cga_loop

private

Definition at line 1922 of file HiggsChiral.h.

◆ cmu

double HiggsChiral::cmu

private

Definition at line 1908 of file HiggsChiral.h.

◆ ct

double HiggsChiral::ct

private

Definition at line 1904 of file HiggsChiral.h.

◆ ctau

double HiggsChiral::ctau

private

Definition at line 1907 of file HiggsChiral.h.

◆ cv

double HiggsChiral::cv

private

Definition at line 1903 of file HiggsChiral.h.

◆ cZga

double HiggsChiral::cZga

private

Definition at line 1911 of file HiggsChiral.h.

◆ cZga_loop

double HiggsChiral::cZga_loop

private

Definition at line 1923 of file HiggsChiral.h.

◆ expZgaLimitATLAS

double HiggsChiral::expZgaLimitATLAS

private

Definition at line 1918 of file HiggsChiral.h.

◆ expZgaLimitATLAS13

double HiggsChiral::expZgaLimitATLAS13

private

Definition at line 1916 of file HiggsChiral.h.

◆ expZgaLimitCMS

double HiggsChiral::expZgaLimitCMS

private

Definition at line 1919 of file HiggsChiral.h.

◆ expZgaLimitCMS13

double HiggsChiral::expZgaLimitCMS13

private

Definition at line 1917 of file HiggsChiral.h.

◆ FlagUniversalcf

bool HiggsChiral::FlagUniversalcf

private

A boolean flag that is true if all cf take the same universal value.

Definition at line 1926 of file HiggsChiral.h.

◆ HChiralvars

const std::string HiggsChiral::HChiralvars

static

Initial value:

= {
    "cv", "ct", "cb", "cc", "ctau", "cmu", "cg", "cga", "cZga", "obsZgaLimitATLAS13", "obsZgaLimitCMS13", "obsZgaLimitATLAS", "obsZgaLimitCMS", "expZgaLimitATLAS13", "expZgaLimitCMS13", "expZgaLimitATLAS", "expZgaLimitCMS"
}

A string array containing the labels of the model parameters in HiggsKvKf.

Definition at line 105 of file HiggsChiral.h.

◆ loopComputed

bool HiggsChiral::loopComputed

private

Definition at line 1924 of file HiggsChiral.h.

◆ NHChiralvars

const int HiggsChiral::NHChiralvars = 17

static

The number of the model parameters.

Definition at line 100 of file HiggsChiral.h.

◆ obsZgaLimitATLAS

double HiggsChiral::obsZgaLimitATLAS

private

Definition at line 1914 of file HiggsChiral.h.

◆ obsZgaLimitATLAS13

double HiggsChiral::obsZgaLimitATLAS13

private

Definition at line 1912 of file HiggsChiral.h.

◆ obsZgaLimitCMS

double HiggsChiral::obsZgaLimitCMS

private

Definition at line 1915 of file HiggsChiral.h.

◆ obsZgaLimitCMS13

double HiggsChiral::obsZgaLimitCMS13

private

Definition at line 1913 of file HiggsChiral.h.

The documentation for this class was generated from the following files:

Label	LaTeX symbol	Description
cv	\(c_V\)
ct	\(c_t\)
cb	\(c_b\)
cc	\(c_c\)
ctau	\(c_\tau\)
cmu	\(c_\mu\)
cg	\(c_g\)
cga	\(c_\gamma\)
cZga	\(c_{Z\gamma}\)

Detailed Description

Model parameters

Model flags

Public Member Functions

Static Public Attributes

Protected Member Functions

Private Member Functions

Private Attributes

Additional Inherited Members

Constructor & Destructor Documentation

◆ HiggsChiral()

◆ ~HiggsChiral()

Member Function Documentation

◆ BrHbbRatio()

◆ BrHccRatio()

◆ BrHgagaRatio()

◆ BrHggRatio()

◆ BrHmumuRatio()

◆ BrHtautauRatio()

◆ BrHtoinvRatio()

◆ BrHWW2l2vRatio()

◆ BrHWWRatio()

◆ BrHZgaeeRatio()

◆ BrHZgallRatio()

◆ BrHZgamumuRatio()

◆ BrHZgaRatio()

◆ BrHZZ2e2muRatio()

◆ BrHZZ4eRatio()

◆ BrHZZ4lRatio()

◆ BrHZZ4muRatio()

◆ BrHZZRatio()

◆ cbminuscc()

◆ cbminusctau()

◆ ccminusctau()

◆ cgaplusct()

◆ cgminuscga()

◆ cgplusct()

◆ CheckParameters()

◆ computecb()

◆ computecc()

◆ computecg()

◆ computecgaga()

◆ computecmu()

◆ computect()

◆ computectau()

◆ computecV()

◆ computecZga()

◆ computeGammaTotalRatio()

◆ cVpluscb()

◆ cVplusctau()

◆ deltaG1_hWW()

◆ deltaG1_hZA()

◆ deltaG1_hZARatio()

◆ deltaG1_hZZ()

◆ deltaG2_hWW()

◆ deltaG2_hZA()

◆ deltaG2_hZZ()

◆ deltaG3_hWW()

◆ deltaG3_hZZ()

◆ deltaG_hAA()

◆ deltaG_hAARatio()

◆ deltaG_hff()

◆ deltaG_hgg()

◆ deltaG_hggRatio()

◆ f_func()

◆ g_func()

◆ Gammabb()

◆ Gammacc()

◆ Gammagaga()

◆ Gammagg()

◆ Gammamumu()

◆ Gammatautau()

◆ GammaTotal()

◆ GammaWW()

◆ GammaZga()

◆ GammaZZ()

◆ getcb()

◆ getcc()

◆ getcg()

◆ getcga()