SUSY Class Reference

A base class for SUSY models. More...

#include <SUSY.h>

Inheritance diagram for SUSY:

Detailed Description

A base class for SUSY models.

Author

HEPfit Collaboration

Copyright

GNU General Public License

Definition at line 26 of file SUSY.h.

Public Member Functions
virtual bool	CheckParameters (const std::map< std::string, double > &DPars)
double	getCosb () const
	Gets \(\cos\beta\). More...
gslpp::complex	getM1 () const
	Gets the bino mass. More...
gslpp::complex	getM2 () const
	Gets the wino mass. More...
double	getM3 () const
	Gets the gluino mass. More...
virtual SUSYMatching &	getMatching () const
gslpp::vector< double >	getMch () const
	Gets the chargino masses. More...
double	getMGl () const
	Gets the gluino mass obtained from FHGetPara(). More...
double	getMHa () const
	Gets the pseudo-scalar Higgs mass. More...
double	getMHh () const
	Gets the heavy Higgs mass. More...
virtual double	getMHl () const
	Gets the light Higgs mass. More...
double	getMHp () const
	Gets the charged Higgs mass. More...
double	getMHptree () const
	Gets the charged-Higgs mass at tree-level. More...
gslpp::vector< double >	getMneu () const
	Gets the neutralino masses. More...
gslpp::vector< double >	getMsd2 () const
	Gets the down-type squark mass squared. More...
gslpp::matrix< gslpp::complex >	getMsDhat2 () const
gslpp::vector< double >	getMsdresum2 () const
	Gets the down-type squark mass squared with the \(\Delta_b\) corrections in the off-diagonal entries. More...
gslpp::vector< double >	getMse2 () const
	Gets the charged slepton mass squared. More...
gslpp::matrix< gslpp::complex >	getMsEhat2 () const
gslpp::matrix< gslpp::complex >	getMsLhat2 () const
gslpp::vector< double >	getMsn2 () const
	Gets the sneutrino mass squared. More...
gslpp::matrix< gslpp::complex >	getMsNhat2 () const
gslpp::matrix< gslpp::complex >	getMsQhat2 () const
gslpp::vector< double >	getMsu2 () const
	Gets the up-type squark mass squared. More...
gslpp::matrix< gslpp::complex >	getMsUhat2 () const
gslpp::complex	getMuH () const
	Gets the \(\mu\) parameter in the superpotential. More...
gslpp::matrix< gslpp::complex >	getN () const
	Gets the rotation matrix for neutralinos. More...
double	getQ_SUSY () const
	Gets the scale of the input parameters. More...
gslpp::matrix< gslpp::complex >	getRd () const
	Gets the rotation matrix for down-type squarks. More...
gslpp::matrix< gslpp::complex >	getRdresum () const
	Gets the rotation matrix for down-type squarks with the \(\Delta_b\) corrections in the off-diagonal entries. More...
gslpp::matrix< gslpp::complex >	getRl () const
	Gets the rotation matrix for charged sleptons. More...
gslpp::matrix< gslpp::complex >	getRn () const
	Gets the rotation matrix for sneutrinos. More...
gslpp::matrix< gslpp::complex >	getRu () const
	Gets the rotation matrix for up-type squarks. More...
gslpp::complex	getSaeff () const
	Gets the sine of the effective mixing angle for the CP-even neutral Higgs bosons. More...
double	getSinb () const
	Gets \(\sin\beta\). More...
double	getTanb () const
	Gets \(\tan\beta\). More...
gslpp::matrix< gslpp::complex >	getTDhat () const
	Gets the trilinear-coupling matrix for down-type squarks. More...
gslpp::matrix< gslpp::complex >	getTEhat () const
	Gets the trilinear-coupling matrix for charged sleptons. More...
gslpp::matrix< gslpp::complex >	getTNhat () const
	Gets the trilinear-coupling matrix for sneutrinos. More...
gslpp::matrix< gslpp::complex >	getTUhat () const
	Gets the trilinear-coupling matrix for up-type squarks. More...
gslpp::matrix< gslpp::complex >	getU () const
	Gets the rotation matrix for negative charginos. More...
gslpp::matrix< gslpp::complex >	getV () const
	Gets the rotation matrix for positive charginos. More...
virtual bool	Init (const std::map< std::string, double > &DPars)
virtual bool	InitializeModel ()
bool	IsFlag_ch () const
bool	IsFlag_FH () const
bool	IsFlag_g () const
bool	IsFlag_h () const
bool	IsFlag_ne () const
double	Ml_Q (const lepton l) const
double	Mq_Q (const quark q) const
virtual double	Mw () const
	The W boson mass. More...
double	Mw_dRho () const
	The W boson mass in the \(\Delta\rho\) approximation. More...
virtual bool	PostUpdate ()
virtual bool	PreUpdate ()
virtual bool	setFlag (const std::string, const bool)
	SUSY ()
	A SUSY constructor. More...
virtual bool	Update (const std::map< std::string, double > &DPars)
double	v1 () const
double	v2 () const
	~SUSY ()
	A SUSY destructor. More...
Public Member Functions inherited from StandardModel
virtual double	A_f (const Particle f) const
	The left-right asymmetry in \(e^+e^-\to Z\to \ell \bar{\ell}\) at the \(Z\)-pole, \(\mathcal{A}_\ell\). More...
virtual double	AFB (const Particle f) const
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. [138]. 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 gslpp::complex	gA_f (const Particle f) const
	The effective leptonic neutral-current axial-vector coupling \(g_A^l\) in the SM. More...
virtual double	Gamma_had () const
	The hadronic decay width of the \(Z\) boson, \(\Gamma_{h}\). More...
virtual double	Gamma_inv () const
	The invisible partial decay width of the \(Z\) boson, \(\Gamma_{\mathrm{inv}}\). More...
virtual double	Gamma_Z () const
	The total decay width of the \(Z\) boson, \(\Gamma_Z\). 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 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 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
EWSMTwoFermionsLEP2 *	getMyTwoFermionsLEP2 () const
	A get method to retrieve the member pointer of type EWSMTwoFermionsLEP2. More...
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...
virtual StandardModel	getTrueSM () const
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 gslpp::complex	gV_f (const Particle f) const
	The effective leptonic neutral-current vector coupling \(g_V^l\) in the SM. 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 gslpp::complex	kappaZ_f (const Particle f) const
	The effective leptonic neutral-current coupling \(\kappa_Z^l\) in the SM. More...
virtual double	LEP2AFBbottom (const double s) const
virtual double	LEP2AFBcharm (const double s) const
virtual double	LEP2AFBmu (const double s) const
virtual double	LEP2AFBtau (const double s) const
virtual double	LEP2Rbottom (const double s) const
virtual double	LEP2Rcharm (const double s) const
virtual double	LEP2sigmaBottom (const double s) const
virtual double	LEP2sigmaCharm (const double s) const
virtual double	LEP2sigmaHadron (const double s) const
virtual double	LEP2sigmaMu (const double s) const
virtual double	LEP2sigmaTau (const double s) const
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 double	N_nu () const
	The number of neutrinos obtained indirectly from the measurements at the Z pole, \(N_{\nu}\). More...
virtual double	R0_f (const Particle f) const
	The ratio \(R_\ell^0=\Gamma(Z\to {\rm hadrons})/\Gamma(Z\to \ell^+ \ell^-)\). More...
virtual double	R_inv () const
	The ratio of the invisible and leptonic (electron) decay widths of the \(Z\) boson, \(R_{inv}\). 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...
virtual gslpp::complex	rhoZ_f (const Particle f) const
	The effective leptonic neutral-current coupling \(\rho_Z^l\) in the SM. 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)
bool	setFlagSigmaForAFB (const bool flagSigmaForAFB_i)
bool	setFlagSigmaForR (const bool flagSigmaForR_i)
virtual bool	setFlagStr (const std::string name, const std::string value)
	A method to set a flag of StandardModel. More...
virtual double	sigma0_had () const
	The hadronic cross section for \(e^+e^- \to Z \to \mathrm{hadrons}\) at the \(Z\)-pole, \(\sigma_h^0\). More...
virtual double	sin2thetaEff (const Particle f) const
	The effective weak mixing angle \(\sin^2\theta_{\rm eff}^{\,\ell}\) for \(Z\ell\bar{\ell}\) at the the \(Z\)-mass scale. 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	isModelFWC_DF2 () 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	setModelFWC_DF2 ()
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 int	NSUSYvars = 10
static const std::string	SUSYvars [NSUSYvars]
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 void	computeYukawas ()
virtual void	setParameter (const std::string name, const double &value)
	A method to set the value of a parameter of SUSY. More...
virtual void	SetSoftTerms ()
virtual void	SetTanb (const double tanb)
Protected Member Functions inherited from StandardModel
double	AFB_NoISR_l (const QCD::lepton l_flavor, const double s) const
double	AFB_NoISR_q (const QCD::quark q_flavor, const double s) const
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...
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	getIntegrand_AFBnumeratorWithISR_bottom133 (double x) const
double	getIntegrand_AFBnumeratorWithISR_bottom167 (double x) const
double	getIntegrand_AFBnumeratorWithISR_bottom172 (double x) const
double	getIntegrand_AFBnumeratorWithISR_bottom183 (double x) const
double	getIntegrand_AFBnumeratorWithISR_bottom189 (double x) const
double	getIntegrand_AFBnumeratorWithISR_bottom192 (double x) const
double	getIntegrand_AFBnumeratorWithISR_bottom196 (double x) const
double	getIntegrand_AFBnumeratorWithISR_bottom200 (double x) const
double	getIntegrand_AFBnumeratorWithISR_bottom202 (double x) const
double	getIntegrand_AFBnumeratorWithISR_bottom205 (double x) const
double	getIntegrand_AFBnumeratorWithISR_bottom207 (double x) const
double	getIntegrand_AFBnumeratorWithISR_charm133 (double x) const
double	getIntegrand_AFBnumeratorWithISR_charm167 (double x) const
double	getIntegrand_AFBnumeratorWithISR_charm172 (double x) const
double	getIntegrand_AFBnumeratorWithISR_charm183 (double x) const
double	getIntegrand_AFBnumeratorWithISR_charm189 (double x) const
double	getIntegrand_AFBnumeratorWithISR_charm192 (double x) const
double	getIntegrand_AFBnumeratorWithISR_charm196 (double x) const
double	getIntegrand_AFBnumeratorWithISR_charm200 (double x) const
double	getIntegrand_AFBnumeratorWithISR_charm202 (double x) const
double	getIntegrand_AFBnumeratorWithISR_charm205 (double x) const
double	getIntegrand_AFBnumeratorWithISR_charm207 (double x) const
double	getIntegrand_AFBnumeratorWithISR_mu130 (double x) const
double	getIntegrand_AFBnumeratorWithISR_mu136 (double x) const
double	getIntegrand_AFBnumeratorWithISR_mu161 (double x) const
double	getIntegrand_AFBnumeratorWithISR_mu172 (double x) const
double	getIntegrand_AFBnumeratorWithISR_mu183 (double x) const
double	getIntegrand_AFBnumeratorWithISR_mu189 (double x) const
double	getIntegrand_AFBnumeratorWithISR_mu192 (double x) const
double	getIntegrand_AFBnumeratorWithISR_mu196 (double x) const
double	getIntegrand_AFBnumeratorWithISR_mu200 (double x) const
double	getIntegrand_AFBnumeratorWithISR_mu202 (double x) const
double	getIntegrand_AFBnumeratorWithISR_mu205 (double x) const
double	getIntegrand_AFBnumeratorWithISR_mu207 (double x) const
double	getIntegrand_AFBnumeratorWithISR_tau130 (double x) const
double	getIntegrand_AFBnumeratorWithISR_tau136 (double x) const
double	getIntegrand_AFBnumeratorWithISR_tau161 (double x) const
double	getIntegrand_AFBnumeratorWithISR_tau172 (double x) const
double	getIntegrand_AFBnumeratorWithISR_tau183 (double x) const
double	getIntegrand_AFBnumeratorWithISR_tau189 (double x) const
double	getIntegrand_AFBnumeratorWithISR_tau192 (double x) const
double	getIntegrand_AFBnumeratorWithISR_tau196 (double x) const
double	getIntegrand_AFBnumeratorWithISR_tau200 (double x) const
double	getIntegrand_AFBnumeratorWithISR_tau202 (double x) const
double	getIntegrand_AFBnumeratorWithISR_tau205 (double x) const
double	getIntegrand_AFBnumeratorWithISR_tau207 (double x) const
double	getIntegrand_dsigmaBox_bottom130 (double x) const
double	getIntegrand_dsigmaBox_bottom133 (double x) const
double	getIntegrand_dsigmaBox_bottom136 (double x) const
double	getIntegrand_dsigmaBox_bottom161 (double x) const
double	getIntegrand_dsigmaBox_bottom167 (double x) const
double	getIntegrand_dsigmaBox_bottom172 (double x) const
double	getIntegrand_dsigmaBox_bottom183 (double x) const
double	getIntegrand_dsigmaBox_bottom189 (double x) const
double	getIntegrand_dsigmaBox_bottom192 (double x) const
double	getIntegrand_dsigmaBox_bottom196 (double x) const
double	getIntegrand_dsigmaBox_bottom200 (double x) const
double	getIntegrand_dsigmaBox_bottom202 (double x) const
double	getIntegrand_dsigmaBox_bottom205 (double x) const
double	getIntegrand_dsigmaBox_bottom207 (double x) const
double	getIntegrand_dsigmaBox_charm130 (double x) const
double	getIntegrand_dsigmaBox_charm133 (double x) const
double	getIntegrand_dsigmaBox_charm136 (double x) const
double	getIntegrand_dsigmaBox_charm161 (double x) const
double	getIntegrand_dsigmaBox_charm167 (double x) const
double	getIntegrand_dsigmaBox_charm172 (double x) const
double	getIntegrand_dsigmaBox_charm183 (double x) const
double	getIntegrand_dsigmaBox_charm189 (double x) const
double	getIntegrand_dsigmaBox_charm192 (double x) const
double	getIntegrand_dsigmaBox_charm196 (double x) const
double	getIntegrand_dsigmaBox_charm200 (double x) const
double	getIntegrand_dsigmaBox_charm202 (double x) const
double	getIntegrand_dsigmaBox_charm205 (double x) const
double	getIntegrand_dsigmaBox_charm207 (double x) const
double	getIntegrand_dsigmaBox_down130 (double x) const
double	getIntegrand_dsigmaBox_down133 (double x) const
double	getIntegrand_dsigmaBox_down136 (double x) const
double	getIntegrand_dsigmaBox_down161 (double x) const
double	getIntegrand_dsigmaBox_down167 (double x) const
double	getIntegrand_dsigmaBox_down172 (double x) const
double	getIntegrand_dsigmaBox_down183 (double x) const
double	getIntegrand_dsigmaBox_down189 (double x) const
double	getIntegrand_dsigmaBox_down192 (double x) const
double	getIntegrand_dsigmaBox_down196 (double x) const
double	getIntegrand_dsigmaBox_down200 (double x) const
double	getIntegrand_dsigmaBox_down202 (double x) const
double	getIntegrand_dsigmaBox_down205 (double x) const
double	getIntegrand_dsigmaBox_down207 (double x) const
double	getIntegrand_dsigmaBox_mu130 (double x) const
double	getIntegrand_dsigmaBox_mu133 (double x) const
double	getIntegrand_dsigmaBox_mu136 (double x) const
double	getIntegrand_dsigmaBox_mu161 (double x) const
double	getIntegrand_dsigmaBox_mu167 (double x) const
double	getIntegrand_dsigmaBox_mu172 (double x) const
double	getIntegrand_dsigmaBox_mu183 (double x) const
double	getIntegrand_dsigmaBox_mu189 (double x) const
double	getIntegrand_dsigmaBox_mu192 (double x) const
double	getIntegrand_dsigmaBox_mu196 (double x) const
double	getIntegrand_dsigmaBox_mu200 (double x) const
double	getIntegrand_dsigmaBox_mu202 (double x) const
double	getIntegrand_dsigmaBox_mu205 (double x) const
double	getIntegrand_dsigmaBox_mu207 (double x) const
double	getIntegrand_dsigmaBox_strange130 (double x) const
double	getIntegrand_dsigmaBox_strange133 (double x) const
double	getIntegrand_dsigmaBox_strange136 (double x) const
double	getIntegrand_dsigmaBox_strange161 (double x) const
double	getIntegrand_dsigmaBox_strange167 (double x) const
double	getIntegrand_dsigmaBox_strange172 (double x) const
double	getIntegrand_dsigmaBox_strange183 (double x) const
double	getIntegrand_dsigmaBox_strange189 (double x) const
double	getIntegrand_dsigmaBox_strange192 (double x) const
double	getIntegrand_dsigmaBox_strange196 (double x) const
double	getIntegrand_dsigmaBox_strange200 (double x) const
double	getIntegrand_dsigmaBox_strange202 (double x) const
double	getIntegrand_dsigmaBox_strange205 (double x) const
double	getIntegrand_dsigmaBox_strange207 (double x) const
double	getIntegrand_dsigmaBox_tau130 (double x) const
double	getIntegrand_dsigmaBox_tau133 (double x) const
double	getIntegrand_dsigmaBox_tau136 (double x) const
double	getIntegrand_dsigmaBox_tau161 (double x) const
double	getIntegrand_dsigmaBox_tau167 (double x) const
double	getIntegrand_dsigmaBox_tau172 (double x) const
double	getIntegrand_dsigmaBox_tau183 (double x) const
double	getIntegrand_dsigmaBox_tau189 (double x) const
double	getIntegrand_dsigmaBox_tau192 (double x) const
double	getIntegrand_dsigmaBox_tau196 (double x) const
double	getIntegrand_dsigmaBox_tau200 (double x) const
double	getIntegrand_dsigmaBox_tau202 (double x) const
double	getIntegrand_dsigmaBox_tau205 (double x) const
double	getIntegrand_dsigmaBox_tau207 (double x) const
double	getIntegrand_dsigmaBox_up130 (double x) const
double	getIntegrand_dsigmaBox_up133 (double x) const
double	getIntegrand_dsigmaBox_up136 (double x) const
double	getIntegrand_dsigmaBox_up161 (double x) const
double	getIntegrand_dsigmaBox_up167 (double x) const
double	getIntegrand_dsigmaBox_up172 (double x) const
double	getIntegrand_dsigmaBox_up183 (double x) const
double	getIntegrand_dsigmaBox_up189 (double x) const
double	getIntegrand_dsigmaBox_up192 (double x) const
double	getIntegrand_dsigmaBox_up196 (double x) const
double	getIntegrand_dsigmaBox_up200 (double x) const
double	getIntegrand_dsigmaBox_up202 (double x) const
double	getIntegrand_dsigmaBox_up205 (double x) const
double	getIntegrand_dsigmaBox_up207 (double x) const
double	getIntegrand_sigmaWithISR_bottom130 (double x) const
double	getIntegrand_sigmaWithISR_bottom133 (double x) const
double	getIntegrand_sigmaWithISR_bottom136 (double x) const
double	getIntegrand_sigmaWithISR_bottom161 (double x) const
double	getIntegrand_sigmaWithISR_bottom167 (double x) const
double	getIntegrand_sigmaWithISR_bottom172 (double x) const
double	getIntegrand_sigmaWithISR_bottom183 (double x) const
double	getIntegrand_sigmaWithISR_bottom189 (double x) const
double	getIntegrand_sigmaWithISR_bottom192 (double x) const
double	getIntegrand_sigmaWithISR_bottom196 (double x) const
double	getIntegrand_sigmaWithISR_bottom200 (double x) const
double	getIntegrand_sigmaWithISR_bottom202 (double x) const
double	getIntegrand_sigmaWithISR_bottom205 (double x) const
double	getIntegrand_sigmaWithISR_bottom207 (double x) const
double	getIntegrand_sigmaWithISR_charm130 (double x) const
double	getIntegrand_sigmaWithISR_charm133 (double x) const
double	getIntegrand_sigmaWithISR_charm136 (double x) const
double	getIntegrand_sigmaWithISR_charm161 (double x) const
double	getIntegrand_sigmaWithISR_charm167 (double x) const
double	getIntegrand_sigmaWithISR_charm172 (double x) const
double	getIntegrand_sigmaWithISR_charm183 (double x) const
double	getIntegrand_sigmaWithISR_charm189 (double x) const
double	getIntegrand_sigmaWithISR_charm192 (double x) const
double	getIntegrand_sigmaWithISR_charm196 (double x) const
double	getIntegrand_sigmaWithISR_charm200 (double x) const
double	getIntegrand_sigmaWithISR_charm202 (double x) const
double	getIntegrand_sigmaWithISR_charm205 (double x) const
double	getIntegrand_sigmaWithISR_charm207 (double x) const
double	getIntegrand_sigmaWithISR_down130 (double x) const
double	getIntegrand_sigmaWithISR_down133 (double x) const
double	getIntegrand_sigmaWithISR_down136 (double x) const
double	getIntegrand_sigmaWithISR_down161 (double x) const
double	getIntegrand_sigmaWithISR_down167 (double x) const
double	getIntegrand_sigmaWithISR_down172 (double x) const
double	getIntegrand_sigmaWithISR_down183 (double x) const
double	getIntegrand_sigmaWithISR_down189 (double x) const
double	getIntegrand_sigmaWithISR_down192 (double x) const
double	getIntegrand_sigmaWithISR_down196 (double x) const
double	getIntegrand_sigmaWithISR_down200 (double x) const
double	getIntegrand_sigmaWithISR_down202 (double x) const
double	getIntegrand_sigmaWithISR_down205 (double x) const
double	getIntegrand_sigmaWithISR_down207 (double x) const
double	getIntegrand_sigmaWithISR_mu130 (double x) const
double	getIntegrand_sigmaWithISR_mu136 (double x) const
double	getIntegrand_sigmaWithISR_mu161 (double x) const
double	getIntegrand_sigmaWithISR_mu172 (double x) const
double	getIntegrand_sigmaWithISR_mu183 (double x) const
double	getIntegrand_sigmaWithISR_mu189 (double x) const
double	getIntegrand_sigmaWithISR_mu192 (double x) const
double	getIntegrand_sigmaWithISR_mu196 (double x) const
double	getIntegrand_sigmaWithISR_mu200 (double x) const
double	getIntegrand_sigmaWithISR_mu202 (double x) const
double	getIntegrand_sigmaWithISR_mu205 (double x) const
double	getIntegrand_sigmaWithISR_mu207 (double x) const
double	getIntegrand_sigmaWithISR_strange130 (double x) const
double	getIntegrand_sigmaWithISR_strange133 (double x) const
double	getIntegrand_sigmaWithISR_strange136 (double x) const
double	getIntegrand_sigmaWithISR_strange161 (double x) const
double	getIntegrand_sigmaWithISR_strange167 (double x) const
double	getIntegrand_sigmaWithISR_strange172 (double x) const
double	getIntegrand_sigmaWithISR_strange183 (double x) const
double	getIntegrand_sigmaWithISR_strange189 (double x) const
double	getIntegrand_sigmaWithISR_strange192 (double x) const
double	getIntegrand_sigmaWithISR_strange196 (double x) const
double	getIntegrand_sigmaWithISR_strange200 (double x) const
double	getIntegrand_sigmaWithISR_strange202 (double x) const
double	getIntegrand_sigmaWithISR_strange205 (double x) const
double	getIntegrand_sigmaWithISR_strange207 (double x) const
double	getIntegrand_sigmaWithISR_tau130 (double x) const
double	getIntegrand_sigmaWithISR_tau136 (double x) const
double	getIntegrand_sigmaWithISR_tau161 (double x) const
double	getIntegrand_sigmaWithISR_tau172 (double x) const
double	getIntegrand_sigmaWithISR_tau183 (double x) const
double	getIntegrand_sigmaWithISR_tau189 (double x) const
double	getIntegrand_sigmaWithISR_tau192 (double x) const
double	getIntegrand_sigmaWithISR_tau196 (double x) const
double	getIntegrand_sigmaWithISR_tau200 (double x) const
double	getIntegrand_sigmaWithISR_tau202 (double x) const
double	getIntegrand_sigmaWithISR_tau205 (double x) const
double	getIntegrand_sigmaWithISR_tau207 (double x) const
double	getIntegrand_sigmaWithISR_up130 (double x) const
double	getIntegrand_sigmaWithISR_up133 (double x) const
double	getIntegrand_sigmaWithISR_up136 (double x) const
double	getIntegrand_sigmaWithISR_up161 (double x) const
double	getIntegrand_sigmaWithISR_up167 (double x) const
double	getIntegrand_sigmaWithISR_up172 (double x) const
double	getIntegrand_sigmaWithISR_up183 (double x) const
double	getIntegrand_sigmaWithISR_up189 (double x) const
double	getIntegrand_sigmaWithISR_up192 (double x) const
double	getIntegrand_sigmaWithISR_up196 (double x) const
double	getIntegrand_sigmaWithISR_up200 (double x) const
double	getIntegrand_sigmaWithISR_up202 (double x) const
double	getIntegrand_sigmaWithISR_up205 (double x) const
double	getIntegrand_sigmaWithISR_up207 (double x) const
double	Integrand_AFBnumeratorWithISR_l (double x, const QCD::lepton l_flavor, const double s) const
double	Integrand_AFBnumeratorWithISR_q (double x, const QCD::quark q_flavor, const double s) const
double	Integrand_dsigmaBox_l (double cosTheta, const QCD::lepton l_flavor, const double s) const
double	Integrand_dsigmaBox_q (double cosTheta, const QCD::quark q_flavor, const double s) const
double	Integrand_sigmaWithISR_l (double x, const QCD::lepton l_flavor, const double s) const
double	Integrand_sigmaWithISR_q (double x, const QCD::quark q_flavor, const double s) const
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	sigma_NoISR_l (const QCD::lepton l_flavor, const double s) const
double	sigma_NoISR_q (const QCD::quark q_flavor, const double s) const
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...

Protected Attributes
double	cosb
gslpp::complex	m1
gslpp::complex	m2
double	m3
gslpp::vector< double >	m_sd2
gslpp::vector< double >	m_sdresum2
gslpp::vector< double >	m_se2
gslpp::vector< double >	m_sn2
gslpp::vector< double >	m_su2
gslpp::vector< double >	mch
double	md_Q [3]
double	me_Q [3]
double	mh [4]
double	mHp
double	mHptree
double	mn_Q [3]
gslpp::vector< double >	mneu
gslpp::matrix< gslpp::complex >	msDhat2
gslpp::matrix< gslpp::complex >	msEhat2
gslpp::matrix< gslpp::complex >	msLhat2
gslpp::matrix< gslpp::complex >	msNhat2
gslpp::matrix< gslpp::complex >	msQhat2
gslpp::matrix< gslpp::complex >	msUhat2
double	mu_Q [3]
gslpp::complex	muH
SUSYSpectrum *	mySUSYSpectrum
gslpp::matrix< gslpp::complex >	N
double	Q_SUSY
gslpp::matrix< gslpp::complex >	Rd
gslpp::matrix< gslpp::complex >	Rdresum
gslpp::matrix< gslpp::complex >	Rl
gslpp::matrix< gslpp::complex >	Rn
gslpp::matrix< gslpp::complex >	Ru
gslpp::complex	saeff
double	sinb
double	tanb
gslpp::matrix< gslpp::complex >	TDhat
gslpp::matrix< gslpp::complex >	TEhat
gslpp::matrix< gslpp::complex >	TNhat
gslpp::matrix< gslpp::complex >	TUhat
gslpp::matrix< gslpp::complex >	U
gslpp::matrix< gslpp::complex >	V
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...
bool	bSigmaForAFB
bool	bSigmaForR
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...
bool	flagLEP2 [NUMofLEP2RCs]
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...

Private Attributes
bool	flag_ch
bool	flag_fh
bool	flag_g
bool	flag_h
bool	flag_ne
EWSUSY *	myEWSUSY
Matching< SUSYMatching, SUSY >	SUSYM

Friends
class	SUSYSpectrum
	Friend classes of SUSY class. More...

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...

Constructor & Destructor Documentation

SUSY()

SUSY::SUSY

(

)

A SUSY constructor.

Definition at line 21 of file SUSY.cpp.

: StandardModel(), 
        msQhat2(3,3,0.), msUhat2(3,3,0.), msDhat2(3,3,0.),msLhat2(3,3,0.), msNhat2(3,3,0.), msEhat2(3,3,0.),
        TUhat(3,3,0.), TDhat(3,3,0.), TNhat(3,3,0.), TEhat(3,3,0.),
        mch(2,0.), mneu(4,0.), m_su2(6,0.), m_sd2(6,0.), m_sdresum2(6,0.), m_sn2(6,0.), m_se2(6,0.),
        U(2,2,0.), V(2,2,0.), N(4,4,0.),
        Ru(6,6,0.), Rd(6,6,0.), Rdresum(6,6,0.), Rn(6,6,0.), Rl(6,6,0.),SUSYM(*this)
{
    SMM.setObj((StandardModelMatching&) SUSYM.getObj());
    ModelParamMap.insert(std::make_pair("m1r", std::cref(m1.real())));
    ModelParamMap.insert(std::make_pair("m1i", std::cref(m1.imag())));
    ModelParamMap.insert(std::make_pair("m2r", std::cref(m2.real())));
    ModelParamMap.insert(std::make_pair("m2i", std::cref(m2.imag())));
    ModelParamMap.insert(std::make_pair("m3", std::cref(m3)));
    ModelParamMap.insert(std::make_pair("muHr", std::cref(muH.real())));
    ModelParamMap.insert(std::make_pair("muHi", std::cref(muH.imag())));
    ModelParamMap.insert(std::make_pair("mHptree", std::cref(mHptree)));
    ModelParamMap.insert(std::make_pair("tanb", std::cref(tanb)));
    ModelParamMap.insert(std::make_pair("Q_SUSY", std::cref(Q_SUSY)));
    
    flag_fh = false;
    flag_h = false;
    flag_g = false;
    flag_ch = false;
    flag_ne = false;
}

~SUSY()

SUSY::~SUSY

(

)

A SUSY destructor.

Definition at line 48 of file SUSY.cpp.

{
    if (IsModelInitialized()) {
        if (mySUSYSpectrum != NULL) delete(mySUSYSpectrum);
        if (myEWSUSY != NULL) delete(myEWSUSY);
    }
}

Member Function Documentation

CheckParameters()

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

virtual

Reimplemented from StandardModel.

Reimplemented in GeneralSUSY.

Definition at line 249 of file SUSY.cpp.

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

computeYukawas()

void SUSY::computeYukawas ( )

protectedvirtual

Reimplemented from StandardModel.

Definition at line 271 of file SUSY.cpp.

{
    /* initializations */
    Yu = gslpp::matrix<gslpp::complex>::Id(3);
    Yd = gslpp::matrix<gslpp::complex>::Id(3);
    Ye = gslpp::matrix<gslpp::complex>::Id(3);
    Yn = gslpp::matrix<gslpp::complex>::Id(3);
 
    /* Convert the top-quark pole mass to the MSbar mass */
    double mtbar = Mp2Mbar(mtpole, FULLNLO);
 
    double Q_SUSY_temp = Q_SUSY;
    if( Q_SUSY == -1 || Q_SUSY == 0) Q_SUSY = sqrt( sqrt(msQhat2(2,2).abs() * msUhat2(2,2).abs() ) );
 
    for (int i = 0; i < 3; i++) {
        /* Run the quark masses to scale Q */
        if (i != 2)
            mu_Q[i] = Mrun(Q_SUSY, getQuarks((quark)(UP + 2 * i)).getMass_scale(),
                           getQuarks((quark)(UP + 2 * i)).getMass(), FULLNLO);
        else
            mu_Q[i] = Mrun(Q_SUSY, mtbar, FULLNLO);
        md_Q[i] = Mrun(Q_SUSY, getQuarks((quark)(DOWN + 2 * i)).getMass_scale(),
                       getQuarks((quark)(DOWN + 2 * i)).getMass(), FULLNLO);
        me_Q[i] = getLeptons((lepton)(ELECTRON + 2 * i)).getMass();
        mn_Q[i] = getLeptons((lepton)(NEUTRINO_1 + 2 * i)).getMass();
 
        /* Convert MSbar to DRbar */
        mu_Q[i] = MS2DRqmass(Q_SUSY, mu_Q[i]);
        md_Q[i] = MS2DRqmass(Q_SUSY, md_Q[i]);
 
        Yu.assign(i, i, mu_Q[i] / v2() * sqrt(2.));
        Yd.assign(i, i, md_Q[i] / v1() * sqrt(2.));
        Ye.assign(i, i, me_Q[i] / v1() * sqrt(2.));
        Yn.assign(i, i, mn_Q[i] / v2() * sqrt(2.));
    }
 
    Yu = myCKM.getCKM().transpose()*Yu;
    Yn = Yn * myPMNS.getPMNS().hconjugate();
 
    Q_SUSY = Q_SUSY_temp;
    
}

getCosb()

double SUSY::getCosb ( ) const

inline

Gets \(\cos\beta\).

Returns

\(\cos\beta\).

Definition at line 195 of file SUSY.h.

    {
        return cosb;
    }

getM1()

gslpp::complex SUSY::getM1 ( ) const

inline

Gets the bino mass.

Returns

The bino mass.

Definition at line 109 of file SUSY.h.

    {
        return m1;
    }

getM2()

gslpp::complex SUSY::getM2 ( ) const

inline

Gets the wino mass.

Returns

The wino mass.

Definition at line 118 of file SUSY.h.

    {
        return m2;
    }

getM3()

double SUSY::getM3 ( ) const

inline

Gets the gluino mass.

Returns

The gluino mass.

Definition at line 127 of file SUSY.h.

    {
        return m3;
    }

getMatching()

virtual SUSYMatching& SUSY::getMatching ( ) const

inlinevirtual

Reimplemented from StandardModel.

Definition at line 52 of file SUSY.h.

    {
        return SUSYM.getObj();
    }

getMch()

gslpp::vector<double> SUSY::getMch ( ) const

inline

Gets the chargino masses.

Returns

The chargino masses.

Definition at line 263 of file SUSY.h.

    {
        return mch;
    }

getMGl()

double SUSY::getMGl

(

)

const

Gets the gluino mass obtained from FHGetPara().

Returns

The gluino mass obtained from FHGetPara().

Definition at line 366 of file SUSY.cpp.

{
    return m3;
}

getMHa()

double SUSY::getMHa ( ) const

inline

Gets the pseudo-scalar Higgs mass.

Returns

The pseudo-scalar Higgs mass.

Definition at line 231 of file SUSY.h.

    {
        return mh[2];
    }

getMHh()

double SUSY::getMHh ( ) const

inline

Gets the heavy Higgs mass.

Returns

The heavy Higgs mass.

Definition at line 222 of file SUSY.h.

    {
        return mh[1];
    }

getMHl()

virtual double SUSY::getMHl ( ) const

inlinevirtual

Gets the light Higgs mass.

Returns

The light Higgs mass.

Reimplemented from StandardModel.

Definition at line 213 of file SUSY.h.

    {
        return mh[0];
    }

getMHp()

double SUSY::getMHp ( ) const

inline

Gets the charged Higgs mass.

Returns

The charged Higgs mass.

Definition at line 240 of file SUSY.h.

    {
        return mh[3];
    }

getMHptree()

double SUSY::getMHptree ( ) const

inline

Gets the charged-Higgs mass at tree-level.

Returns

The charged-Higgs mass at tree-level.

Definition at line 136 of file SUSY.h.

    {
        return mHptree;
    }

getMneu()

gslpp::vector<double> SUSY::getMneu ( ) const

inline

Gets the neutralino masses.

Returns

The neutralino masses.

Definition at line 294 of file SUSY.h.

    {
        return mneu;
    }

getMsd2()

gslpp::vector<double> SUSY::getMsd2 ( ) const

inline

Gets the down-type squark mass squared.

Returns

The down-type squark mass squared.

Definition at line 358 of file SUSY.h.

    {
        return m_sd2;
    }

getMsDhat2()

gslpp::matrix<gslpp::complex> SUSY::getMsDhat2 ( ) const

inline

Definition at line 322 of file SUSY.h.

    {
        return msDhat2;
    }

getMsdresum2()

gslpp::vector<double> SUSY::getMsdresum2 ( ) const

inline

Gets the down-type squark mass squared with the \(\Delta_b\) corrections in the off-diagonal entries.

Returns

The down-type squark mass squared.

Definition at line 368 of file SUSY.h.

    {
        return m_sdresum2;
    }

getMse2()

gslpp::vector<double> SUSY::getMse2 ( ) const

inline

Gets the charged slepton mass squared.

Returns

The charged slepton mass squared.

Definition at line 450 of file SUSY.h.

    {
        return m_se2;
    }

getMsEhat2()

gslpp::matrix<gslpp::complex> SUSY::getMsEhat2 ( ) const

inline

Definition at line 414 of file SUSY.h.

    {
        return msEhat2;
    }

getMsLhat2()

gslpp::matrix<gslpp::complex> SUSY::getMsLhat2 ( ) const

inline

Definition at line 404 of file SUSY.h.

    {
        return msLhat2;
    }

getMsn2()

gslpp::vector<double> SUSY::getMsn2 ( ) const

inline

Gets the sneutrino mass squared.

Returns

The sneutrino mass squared.

Definition at line 441 of file SUSY.h.

    {
        return m_sn2;
    }

getMsNhat2()

gslpp::matrix<gslpp::complex> SUSY::getMsNhat2 ( ) const

inline

Definition at line 409 of file SUSY.h.

    {
        return msNhat2;
    }

getMsQhat2()

gslpp::matrix<gslpp::complex> SUSY::getMsQhat2 ( ) const

inline

Definition at line 312 of file SUSY.h.

    {
        return msQhat2;
    }

getMsu2()

gslpp::vector<double> SUSY::getMsu2 ( ) const

inline

Gets the up-type squark mass squared.

Returns

The up-type squark mass squared.

Definition at line 349 of file SUSY.h.

    {
        return m_su2;
    }

getMsUhat2()

gslpp::matrix<gslpp::complex> SUSY::getMsUhat2 ( ) const

inline

Definition at line 317 of file SUSY.h.

    {
        return msUhat2;
    }

getMuH()

gslpp::complex SUSY::getMuH ( ) const

inline

Gets the \(\mu\) parameter in the superpotential.

Returns

The \(\mu\) parameter in the superpotential.

Definition at line 145 of file SUSY.h.

    {
        return muH;
    }

getN()

gslpp::matrix<gslpp::complex> SUSY::getN ( ) const

inline

Gets the rotation matrix for neutralinos.

Returns

The rotation matrix for neutralinos.

Definition at line 303 of file SUSY.h.

    {
        return N;
    }

getQ_SUSY()

double SUSY::getQ_SUSY ( ) const

inline

Gets the scale of the input parameters.

Returns

The scale of the input parameters.

Definition at line 163 of file SUSY.h.

    {
        return Q_SUSY;
    }

getRd()

gslpp::matrix<gslpp::complex> SUSY::getRd ( ) const

inline

Gets the rotation matrix for down-type squarks.

Returns

The rotation matrix for down-type squarks.

Definition at line 386 of file SUSY.h.

    {
        return Rd;
    }

getRdresum()

gslpp::matrix<gslpp::complex> SUSY::getRdresum ( ) const

inline

Gets the rotation matrix for down-type squarks with the \(\Delta_b\) corrections in the off-diagonal entries.

Returns

The rotation matrix for down-type squarks.

Definition at line 396 of file SUSY.h.

    {
        return Rdresum;
    }

getRl()

gslpp::matrix<gslpp::complex> SUSY::getRl ( ) const

inline

Gets the rotation matrix for charged sleptons.

Returns

The rotation matrix for charged sleptons.

Definition at line 468 of file SUSY.h.

    {
        return Rl;
    }

getRn()

gslpp::matrix<gslpp::complex> SUSY::getRn ( ) const

inline

Gets the rotation matrix for sneutrinos.

Returns

The rotation matrix for sneutrinos.

Definition at line 459 of file SUSY.h.

    {
        return Rn;
    }

getRu()

gslpp::matrix<gslpp::complex> SUSY::getRu ( ) const

inline

Gets the rotation matrix for up-type squarks.

Returns

The rotation matrix for up-type squarks.

Definition at line 377 of file SUSY.h.

    {
        return Ru;
    }

getSaeff()

gslpp::complex SUSY::getSaeff ( ) const

inline

Gets the sine of the effective mixing angle for the CP-even neutral Higgs bosons.

Returns

Definition at line 204 of file SUSY.h.

    {
        return saeff;
    }

getSinb()

double SUSY::getSinb ( ) const

inline

Gets \(\sin\beta\).

Returns

\(\sin\beta\).

Definition at line 186 of file SUSY.h.

    {
        return sinb;
    }

getTanb()

double SUSY::getTanb ( ) const

inline

Gets \(\tan\beta\).

Returns

\(\tan\beta\).

Definition at line 154 of file SUSY.h.

    {
        return tanb;
    }

getTDhat()

gslpp::matrix<gslpp::complex> SUSY::getTDhat ( ) const

inline

Gets the trilinear-coupling matrix for down-type squarks.

Returns

The trilinear-coupling matrix for down-type squarks.

Definition at line 340 of file SUSY.h.

    {
        return TDhat;
    }

getTEhat()

gslpp::matrix<gslpp::complex> SUSY::getTEhat ( ) const

inline

Gets the trilinear-coupling matrix for charged sleptons.

Returns

The trilinear-coupling matrix for charged sleptons.

Definition at line 432 of file SUSY.h.

    {
        return TEhat;
    }

getTNhat()

gslpp::matrix<gslpp::complex> SUSY::getTNhat ( ) const

inline

Gets the trilinear-coupling matrix for sneutrinos.

Returns

The trilinear-coupling matrix for sneutrinos.

Definition at line 423 of file SUSY.h.

    {
        return TNhat;
    }

getTUhat()

gslpp::matrix<gslpp::complex> SUSY::getTUhat ( ) const

inline

Gets the trilinear-coupling matrix for up-type squarks.

Returns

The trilinear-coupling matrix for up-type squarks.

Definition at line 331 of file SUSY.h.

    {
        return TUhat;
    }

getU()

gslpp::matrix<gslpp::complex> SUSY::getU ( ) const

inline

Gets the rotation matrix for negative charginos.

Returns

The rotation matrix for negative charginos.

Definition at line 272 of file SUSY.h.

    {
        return U;
    }

getV()

gslpp::matrix<gslpp::complex> SUSY::getV ( ) const

inline

Gets the rotation matrix for positive charginos.

Returns

The rotation matrix for positive charginos.

Definition at line 281 of file SUSY.h.

    {
        return V;
    }

Init()

bool SUSY::Init ( const std::map< std::string, double > &  DPars )

virtual

Reimplemented from StandardModel.

Reimplemented in GeneralSUSY.

Definition at line 72 of file SUSY.cpp.

{
    return(StandardModel::Init(DPars));
}

InitializeModel()

bool SUSY::InitializeModel ( )

virtual

Reimplemented from StandardModel.

Reimplemented in GeneralSUSY.

Definition at line 58 of file SUSY.cpp.

{
    if (!flag_h) mySUSYSpectrum = new SUSYSpectrum(*this);
    else mySUSYSpectrum = NULL;
    myEWSUSY = new EWSUSY(*this);
    setFlagStr("Mw", "NORESUM");
    setModelInitialized(StandardModel::InitializeModel());
    setModelSUSY();
    return(true);
}

IsFlag_ch()

bool SUSY::IsFlag_ch ( ) const

inline

Definition at line 86 of file SUSY.h.

    {
        return flag_ch;
    }

IsFlag_FH()

bool SUSY::IsFlag_FH ( ) const

inline

Definition at line 96 of file SUSY.h.

    {
        return flag_fh;
    }

IsFlag_g()

bool SUSY::IsFlag_g ( ) const

inline

Definition at line 81 of file SUSY.h.

    {
        return flag_g;
    }

IsFlag_h()

bool SUSY::IsFlag_h ( ) const

inline

Definition at line 76 of file SUSY.h.

    {
        return flag_h;
    }

IsFlag_ne()

bool SUSY::IsFlag_ne ( ) const

inline

Definition at line 91 of file SUSY.h.

    {
        return flag_ne;
    }

Ml_Q()

double SUSY::Ml_Q ( const lepton  l ) const

inline

Definition at line 493 of file SUSY.h.

    {
        switch (l) {
            case ELECTRON:
            case MU:
            case TAU:
                return me_Q[(int)(l - ELECTRON)/2];
            case NEUTRINO_1:
            case NEUTRINO_2:
            case NEUTRINO_3:
                return mn_Q[((int)(l - NEUTRINO_1))/2];
            default:
                throw std::runtime_error("SUSY::Ml_Q(): Error!");
        }
    }

Mq_Q()

double SUSY::Mq_Q ( const quark  q ) const

inline

Definition at line 477 of file SUSY.h.

    {
        switch (q) {
            case UP:
            case CHARM:
            case TOP:
                return mu_Q[(int)(q - UP)/2];
            case DOWN:
            case STRANGE:
            case BOTTOM:
                return md_Q[((int)(q - DOWN))/2];
            default:
                throw std::runtime_error("SUSY::Mq_Q(): Error!");
        }
    }

Mw()

double SUSY::Mw ( ) const

virtual

The W boson mass.

Returns

\(M_W\).

Reimplemented from StandardModel.

Definition at line 374 of file SUSY.cpp.

{
    return StandardModel::Mw();
    //return myEWSUSY->Mw_MSSM();
}

Mw_dRho()

double SUSY::Mw_dRho

(

)

const

The W boson mass in the \(\Delta\rho\) approximation.

Returns

\(M_W\) in the \(\Delta\rho\) approximation.

Definition at line 380 of file SUSY.cpp.

{
    return 0.;
}

PostUpdate()

bool SUSY::PostUpdate ( )

virtual

Reimplemented from StandardModel.

Reimplemented in GeneralSUSY.

Definition at line 100 of file SUSY.cpp.

{
    if(!StandardModel::PostUpdate()) return (false);
    /* Set the squark and slepton mass matrices and the trilinear-coupling matrices */
    SetSoftTerms();
    computeYukawas();
 
    /* use approximate GUT relation if M1 & M2 are zero */
    if(m1.abs() == 0. && m2.abs() == 0.) {
        m1.real() = m3/6.;
        m2.real() = m3/3.;
    }
    
    /* Compute Higgs and sparticle spectra with FeynHiggs */
    if (IsFlag_FH()) {
    }
    else {
    /* Compute Higgs and sparticle spectra without FeynHiggs */
        /* sfermions */
        for (int i = 0; i < 6; i++) {
            m_sn2(i) = 0.;// heavy decoupled masses for i=3-5
            m_se2(i) = 0.;
            m_su2(i) = 0.;
            m_sd2(i) = 0.;
            m_sdresum2(i) = 0.;
            for (int j = 0; j < 6; j++) {
                /* R: first (second) index for mass (gauge) eigenstates */
                /* UASf: second (third) index for gauge (mass) eigenstates */
                Rn.assign(i,j, 0.);
                Rl.assign(i,j, 0.);
                Ru.assign(i,j, 0.);
                Rd.assign(i,j, 0.);
                Rdresum.assign(i,j, 0.);
            }
        }
 
        /* charginos */
        for (int i = 0; i < 2; i++) {
            mch(i) = 0.;
            for (int j = 0; j < 2; j++) {
                /* U and V: first (second) index for mass (gauge) eigenstates */
                /* Ucha and VCha: first (second) index for gauge (mass) eigenstates */
                U.assign(i,j, 0.);
                V.assign(i,j, 0.);
            }
        }
 
        /* neutralinos */
        for (int i = 0; i < 4; i++) {
            mneu(i) = 0.;
            for (int j = 0; j < 4; j++)
                /* N: first (second) index for mass (gauge) eigenstates */
                /* Zneu: first (second) index for gauge (mass) eigenstates */
                N.assign(i,j, 0.);
        }
        
    if(!mySUSYSpectrum->CalcHiggs(mh,saeff)) return (false);
    if(!mySUSYSpectrum->CalcChargino(U,V,mch)) return (false);
    if(!mySUSYSpectrum->CalcNeutralino(N,mneu)) return (false);
    if(!mySUSYSpectrum->CalcSup(Ru,m_su2)) return (false);
    mySUSYSpectrum->SortSfermionMasses(m_su2, Ru);
    if(!mySUSYSpectrum->CalcSdown(Rd,m_sd2)) return (false);
    mySUSYSpectrum->SortSfermionMasses(m_sd2, Rd);
    if(!mySUSYSpectrum->CalcSneutrino(Rn,m_sn2)) return (false);
    mySUSYSpectrum->SortSfermionMasses(m_sn2, Rn);
    if(!mySUSYSpectrum->CalcSelectron(Rl,m_se2)) return (false);
    mySUSYSpectrum->SortSfermionMasses(m_se2, Rl);
    }
 
//    std::cout<<"muH S = "<<muH<<std::endl;
 
    /* Set the mass of the SM-like Higgs */
    /* allowed range for the use of EWSMApproximateFormulae class */
    if (mh[0] < 10. || mh[0] > 1000.) {
        std::stringstream out;
        out << mh[0];
        throw std::runtime_error("SUSY::PostUpdate(): mh=" + out.str() + " is out of range for EWSMApproximateFormulae");
        return (false);
    }
    mHl = mh[0];
    
    if( Q_SUSY == -1 || Q_SUSY == 0) Q_SUSY = sqrt( sqrt(m_su2(2) * m_su2(5)) );
 
    /* For EWSUSY class */
    myEWSUSY->SetRosiekParameters();
 
    /* Necessary for updating SUSY and SUSY-derived parameters in SUSYMatching */
    /* For SUSY Models only: The SM Matching needs to be updated here since StandardModel::PostUpdate() will not do it since the Higgs masses need to be computed. */
    SUSYM.getObj().updateSMParameters();
    SUSYM.getObj().updateSUSYParameters();
 
    SUSYM.getObj().Comp_mySUSYMQ();
 
    if (IsFlag_ne()) SUSYM.getObj().Comp_VdDNL(0);
    if (IsFlag_ne()) SUSYM.getObj().Comp_VdDNR(0);
    if (IsFlag_ch()) SUSYM.getObj().Comp_VdUCL();
    if (IsFlag_ch()) SUSYM.getObj().Comp_VdUCR(0);
 
    SUSYM.getObj().Comp_DeltaMd();
    SUSYM.getObj().Comp_DeltaDL();
    SUSYM.getObj().Comp_Eps_J();
    SUSYM.getObj().Comp_Lambda0EpsY();
    SUSYM.getObj().Comp_mySUSY_CKM();
 
    if (IsFlag_h()) {
        SUSYM.getObj().Comp_PHLR();
        SUSYM.getObj().Comp_VUDHH();
        SUSYM.getObj().Comp_PHRL();
    }
    if (IsFlag_ne()) {
        SUSYM.getObj().Comp_VdDNL(1);
        SUSYM.getObj().Comp_VdDNR(1);
        SUSYM.getObj().Comp_VuUN();
    }
    if (IsFlag_ch()) {
        SUSYM.getObj().Comp_VdUCR(1);
        SUSYM.getObj().Comp_VuDCL();
        SUSYM.getObj().Comp_VuDCR();
    }
 
    return (true);
}

PreUpdate()

bool SUSY::PreUpdate ( )

virtual

Reimplemented from StandardModel.

Reimplemented in GeneralSUSY.

Definition at line 77 of file SUSY.cpp.

{
    if(!StandardModel::PreUpdate()) return (false);
 
    return (true);
}

setFlag()

bool SUSY::setFlag ( const std::string  name, const bool  value  )

virtual

Reimplemented from StandardModel.

Definition at line 324 of file SUSY.cpp.

{
    bool res = false;
    if(name.compare("Flag_H") == 0) {
        flag_h = value;
        res = true;
    }
    else if(name.compare("Flag_g") == 0) {
        flag_g = value;
        res = true;
    }
    else if(name.compare("Flag_Chi") == 0) {
        flag_ch = value;
        res = true;
    }
    else if(name.compare("Flag_Chi0") == 0) {
        flag_ne = value;
        res = true;
    }
    else if(name.compare("Flag_FH") == 0) {
        flag_fh = value;
        res = true;
    }
    else
        res = StandardModel::setFlag(name,value);
 
    return(res);
}

setParameter()

void SUSY::setParameter ( const std::string  name, const double &  value  )

protectedvirtual

A method to set the value of a parameter of SUSY.

Parameters

[in]	name	name of a model parameter
[in]	value	the value to be assigned to the parameter specified by name

Reimplemented from StandardModel.

Reimplemented in GeneralSUSY.

Definition at line 223 of file SUSY.cpp.

{
    if (name.compare("m1r") == 0)
        m1.real() = value;
    else if (name.compare("m1i") == 0)
        m1.imag() = value;
    else if (name.compare("m2r") == 0)
        m2.real() = value;
    else if (name.compare("m2i") == 0)
        m2.imag() = value;
    else if (name.compare("m3") == 0)
        m3 = value;
    else if (name.compare("muHr") == 0)
        muH.real() = value;
    else if (name.compare("muHi") == 0)
        muH.imag() = value;
    else if (name.compare("mHptree") == 0)
        mHptree = value;
    else if (name.compare("tanb") == 0)
        SetTanb(value);
    else if (name.compare("Q_SUSY") == 0)
        Q_SUSY = value;
    else
        StandardModel::setParameter(name, value);
}

SetSoftTerms()

void SUSY::SetSoftTerms ( )

protectedvirtual

Reimplemented in GeneralSUSY.

Definition at line 314 of file SUSY.cpp.

{
    // MsQ2, MsU2, MsD2, MsL2, MsN2, MsE2, TU, TD, TN and TE are set to 0 in the constructor.
    // See also GeneralSUSY::SetSoftTerms().
}

SetTanb()

void SUSY::SetTanb ( const double  tanb )

protectedvirtual

Definition at line 260 of file SUSY.cpp.

{
    this->tanb = tanb;
    if (tanb < 0.)
        throw std::runtime_error("SUSY::setTanb(): Negative tanb is not allowed");
 
    /* cosb and sinb are defined to be positive, corresponding to 0<=beta<=pi/2 */
    cosb = sqrt(1. / (1. + tanb * tanb));
    sinb = tanb * cosb;
}

Update()

bool SUSY::Update ( const std::map< std::string, double > &  DPars )

virtual

Reimplemented from StandardModel.

Reimplemented in GeneralSUSY.

Definition at line 84 of file SUSY.cpp.

{
    if(!PreUpdate()) return (false);
 
    UpdateError = false;
 
    for (std::map<std::string, double>::const_iterator it = DPars.begin(); it != DPars.end(); it++)
        setParameter(it->first, it->second);
 
    if (UpdateError) return (false);
 
    if(!PostUpdate()) return (false);
 
    return (true);
}

v1()

double SUSY::v1

(

)

const

Returns

The Higgs VEV associated with the down-type quarks.

Definition at line 356 of file SUSY.cpp.

{
    return (v() * cosb);
}

v2()

double SUSY::v2

(

)

const

Returns

The Higgs VEV associated with the up-type quarks.

Definition at line 361 of file SUSY.cpp.

{
    return (v() * sinb);
}

Friends And Related Function Documentation

SUSYSpectrum

friend class SUSYSpectrum

friend

Friend classes of SUSY class.

Definition at line 35 of file SUSY.h.

Member Data Documentation

cosb

double SUSY::cosb

protected

Definition at line 545 of file SUSY.h.

flag_ch

bool SUSY::flag_ch

private

Definition at line 566 of file SUSY.h.

flag_fh

bool SUSY::flag_fh

private

Definition at line 566 of file SUSY.h.

flag_g

bool SUSY::flag_g

private

Definition at line 566 of file SUSY.h.

flag_h

bool SUSY::flag_h

private

Definition at line 566 of file SUSY.h.

flag_ne

bool SUSY::flag_ne

private

Definition at line 566 of file SUSY.h.

m1

gslpp::complex SUSY::m1

protected

Definition at line 541 of file SUSY.h.

m2

gslpp::complex SUSY::m2

protected

Definition at line 541 of file SUSY.h.

m3

double SUSY::m3

protected

Definition at line 542 of file SUSY.h.

m_sd2

gslpp::vector<double> SUSY::m_sd2

protected

Definition at line 556 of file SUSY.h.

m_sdresum2

gslpp::vector<double> SUSY::m_sdresum2

protected

Definition at line 556 of file SUSY.h.

m_se2

gslpp::vector<double> SUSY::m_se2

protected

Definition at line 556 of file SUSY.h.

m_sn2

gslpp::vector<double> SUSY::m_sn2

protected

Definition at line 556 of file SUSY.h.

m_su2

gslpp::vector<double> SUSY::m_su2

protected

Definition at line 556 of file SUSY.h.

mch

gslpp::vector<double> SUSY::mch

protected

Definition at line 555 of file SUSY.h.

md_Q

double SUSY::md_Q[3]

protected

Definition at line 562 of file SUSY.h.

me_Q

double SUSY::me_Q[3]

protected

Definition at line 562 of file SUSY.h.

mh

double SUSY::mh[4]

protected

Definition at line 553 of file SUSY.h.

mHp

double SUSY::mHp

protected

Definition at line 553 of file SUSY.h.

mHptree

double SUSY::mHptree

protected

Definition at line 542 of file SUSY.h.

mn_Q

double SUSY::mn_Q[3]

protected

Definition at line 562 of file SUSY.h.

mneu

gslpp::vector<double> SUSY::mneu

protected

Definition at line 555 of file SUSY.h.

msDhat2

gslpp::matrix<gslpp::complex> SUSY::msDhat2

protected

Definition at line 549 of file SUSY.h.

msEhat2

gslpp::matrix<gslpp::complex> SUSY::msEhat2

protected

Definition at line 549 of file SUSY.h.

msLhat2

gslpp::matrix<gslpp::complex> SUSY::msLhat2

protected

Definition at line 549 of file SUSY.h.

msNhat2

gslpp::matrix<gslpp::complex> SUSY::msNhat2

protected

Definition at line 549 of file SUSY.h.

msQhat2

gslpp::matrix<gslpp::complex> SUSY::msQhat2

protected

Definition at line 549 of file SUSY.h.

msUhat2

gslpp::matrix<gslpp::complex> SUSY::msUhat2

protected

Definition at line 549 of file SUSY.h.

mu_Q

double SUSY::mu_Q[3]

protected

Definition at line 562 of file SUSY.h.

muH

gslpp::complex SUSY::muH

protected

Definition at line 541 of file SUSY.h.

myEWSUSY

EWSUSY* SUSY::myEWSUSY

private

Definition at line 568 of file SUSY.h.

mySUSYSpectrum

SUSYSpectrum* SUSY::mySUSYSpectrum

protected

Definition at line 538 of file SUSY.h.

N

gslpp::matrix<gslpp::complex> SUSY::N

protected

Definition at line 559 of file SUSY.h.

NSUSYvars

const int SUSY::NSUSYvars = 10

static

Definition at line 29 of file SUSY.h.

Q_SUSY

double SUSY::Q_SUSY

protected

Definition at line 542 of file SUSY.h.

Rd

gslpp::matrix<gslpp::complex> SUSY::Rd

protected

Definition at line 559 of file SUSY.h.

Rdresum

gslpp::matrix<gslpp::complex> SUSY::Rdresum

protected

Definition at line 559 of file SUSY.h.

Rl

gslpp::matrix<gslpp::complex> SUSY::Rl

protected

Definition at line 559 of file SUSY.h.

Rn

gslpp::matrix<gslpp::complex> SUSY::Rn

protected

Definition at line 559 of file SUSY.h.

Ru

gslpp::matrix<gslpp::complex> SUSY::Ru

protected

Definition at line 559 of file SUSY.h.

saeff

gslpp::complex SUSY::saeff

protected

Definition at line 554 of file SUSY.h.

sinb

double SUSY::sinb

protected

Definition at line 545 of file SUSY.h.

SUSYM

Matching<SUSYMatching,SUSY> SUSY::SUSYM

mutableprivate

Definition at line 567 of file SUSY.h.

SUSYvars

const std::string SUSY::SUSYvars

static

Initial value:

= {
    "m1r", "m1i", "m2r", "m2i", "m3" , "muHr", "muHi", "mHptree", "tanb", "Q_SUSY"
}

Definition at line 30 of file SUSY.h.

tanb

double SUSY::tanb

protected

Definition at line 542 of file SUSY.h.

TDhat

gslpp::matrix<gslpp::complex> SUSY::TDhat

protected

Definition at line 550 of file SUSY.h.

TEhat

gslpp::matrix<gslpp::complex> SUSY::TEhat

protected

Definition at line 550 of file SUSY.h.

TNhat

gslpp::matrix<gslpp::complex> SUSY::TNhat

protected

Definition at line 550 of file SUSY.h.

TUhat

gslpp::matrix<gslpp::complex> SUSY::TUhat

protected

Definition at line 550 of file SUSY.h.

U

gslpp::matrix<gslpp::complex> SUSY::U

protected

Definition at line 559 of file SUSY.h.

V

gslpp::matrix<gslpp::complex> SUSY::V

protected

Definition at line 559 of file SUSY.h.

---

The documentation for this class was generated from the following files:

• SUSY.h
• SUSY.cpp