InputParameters Class Reference

A class for defining the default values of the mandatory parameters of the model being used on the library mode. More...

#include <InputParameters.h>

Detailed Description

A class for defining the default values of the mandatory parameters of the model being used on the library mode.

Author
HEPfit Collaboration

Definition at line 19 of file InputParameters.h.

Public Member Functions

std::map< std::string, double > getInputParameters (std::string &ModelName)
 A method that returns the map of the mandatory model parameters given the model name. More...
 
 InputParameters ()
 The default constructor. More...
 
virtual ~InputParameters ()
 The default destructor. More...
 

Private Member Functions

std::map< std::string, double > NPEffectiveBS ()
 A method that generates the map of the mandatory model parameters for NPEffectiveBS. More...
 
std::map< std::string, double > NPEffectiveGIMR ()
 A method that generates the map of the mandatory model parameters for NPEffectiveGIMR. More...
 
std::map< std::string, double > NPEpsilons ()
 A method that generates the map of the mandatory model parameters for NPEpsilons. More...
 
std::map< std::string, double > NPEpsilons_pureNP ()
 A method that generates the map of the mandatory model parameters for NPEpsilons_pureNP. More...
 
std::map< std::string, double > NPHiggs ()
 A method that generates the map of the mandatory model parameters for NPHiggs. More...
 
std::map< std::string, double > NPSTU ()
 A method that generates the map of the mandatory model parameters for NPSTU. More...
 
std::map< std::string, double > NPSTUZbbbarLR ()
 A method that generates the map of the mandatory model parameters for NPSTUZbbbarLR. More...
 
std::map< std::string, double > NPZbbbarLR ()
 A method that generates the map of the mandatory model parameters for NPZbbbar and NPZbbbarLinearized. More...
 
std::map< std::string, double > NPZbbbarVA ()
 A method that generates the map of the mandatory model parameters for NPZbbbar and NPZbbbarLinearized. More...
 
std::map< std::string, double > StandardModel ()
 A method that generates the map of the mandatory model parameters for StandardModel. More...
 

Private Attributes

std::map< std::string, double > DPars_IN
 A map for the list of mandatory parameters in the model being used. More...
 

Constructor & Destructor Documentation

InputParameters::InputParameters ( )
inline

The default constructor.

Definition at line 25 of file InputParameters.h.

26  {};
virtual InputParameters::~InputParameters ( )
inlinevirtual

The default destructor.

Definition at line 31 of file InputParameters.h.

32  {};

Member Function Documentation

std::map<std::string, double> InputParameters::getInputParameters ( std::string &  ModelName)
inline

A method that returns the map of the mandatory model parameters given the model name.

Parameters
[in]ModelNamethe name of the model being used
Returns
the map of the mandatory parameters

Definition at line 39 of file InputParameters.h.

40  {
41  if (ModelName.compare("StandardModel") == 0) return(StandardModel());
42  else if (ModelName.compare("NPSTU") == 0) return(NPSTU());
43  else if (ModelName.compare("NPSTUZbbbarLR") == 0) return (NPSTUZbbbarLR());
44  else if (ModelName.compare("NPEpsilons") == 0) return(NPEpsilons());
45  else if (ModelName.compare("NPEpsilons_pureNP") == 0) return(NPEpsilons_pureNP());
46  else if (ModelName.compare("NPHiggs") == 0) return(NPHiggs());
47  else if (ModelName.compare("NPZbbbar") == 0) return(NPZbbbarVA());
48  else if (ModelName.compare("NPZbbbarLR") == 0) return(NPZbbbarLR());
49  else if (ModelName.compare("NPZbbbarLinearized") == 0) return(NPZbbbarVA());
50  else if (ModelName.compare("NPZbbbarLinearizedLR") == 0) return(NPZbbbarLR());
51  else if (ModelName.compare("NPEffectiveBS") == 0) return(NPEffectiveBS());
52  else if (ModelName.compare("NPEffectiveBS_LFU") == 0) return(NPEffectiveBS());
53  else if (ModelName.compare("NPEffectiveBS_QFU") == 0) return(NPEffectiveBS());
54  else if (ModelName.compare("NPEffectiveBS_LFU_QFU") == 0) return(NPEffectiveBS());
55  else if (ModelName.compare("NPEffectiveGIMR") == 0) return(NPEffectiveGIMR());
56  //else if (ModelName.compare("NPEffectiveGIMR_LFU") == 0) return(NPEffectiveGIMR());
57  //else if (ModelName.compare("NPEffectiveGIMR_QFU") == 0) return(NPEffectiveGIMR());
58  else if (ModelName.compare("NPEffectiveGIMR_LFU_QFU") == 0) return(NPEffectiveGIMR());
59  else throw std::runtime_error("\nERROR: Incorrect model name passed to InputParameters(): " + ModelName + "\n");
60  };
std::map< std::string, double > NPZbbbarLR()
A method that generates the map of the mandatory model parameters for NPZbbbar and NPZbbbarLinearized...
std::map< std::string, double > NPEpsilons_pureNP()
A method that generates the map of the mandatory model parameters for NPEpsilons_pureNP.
std::map< std::string, double > NPEffectiveBS()
A method that generates the map of the mandatory model parameters for NPEffectiveBS.
std::map< std::string, double > NPHiggs()
A method that generates the map of the mandatory model parameters for NPHiggs.
std::map< std::string, double > NPZbbbarVA()
A method that generates the map of the mandatory model parameters for NPZbbbar and NPZbbbarLinearized...
std::map< std::string, double > NPEpsilons()
A method that generates the map of the mandatory model parameters for NPEpsilons. ...
std::map< std::string, double > NPSTUZbbbarLR()
A method that generates the map of the mandatory model parameters for NPSTUZbbbarLR.
std::map< std::string, double > NPEffectiveGIMR()
A method that generates the map of the mandatory model parameters for NPEffectiveGIMR.
std::map< std::string, double > NPSTU()
A method that generates the map of the mandatory model parameters for NPSTU.
std::map< std::string, double > StandardModel()
A method that generates the map of the mandatory model parameters for StandardModel.
std::map<std::string, double> InputParameters::NPEffectiveBS ( )
inlineprivate

A method that generates the map of the mandatory model parameters for NPEffectiveBS.

Returns
the map of the mandatory parameters
Attention
The NP scale Lambda_NP is initialize to 1 TeV.

Definition at line 410 of file InputParameters.h.

411  {
413 
414  DPars_IN["cWB_NP"] = 0.;
415  DPars_IN["cH_NP"] = 0.;
416  DPars_IN["cLL_NP"] = 0.;
417  DPars_IN["cHLp_NP"] = 0.;
418  DPars_IN["cHQp_NP"] = 0.;
419  DPars_IN["cHL_NP"] = 0.;
420  DPars_IN["cHQ_NP"] = 0.;
421  DPars_IN["cHE_NP"] = 0.;
422  DPars_IN["cHU_NP"] = 0.;
423  DPars_IN["cHD_NP"] = 0.;
424  DPars_IN["Lambda_NP"] = 1000.;
425 
426  return (DPars_IN);
427  };
std::map< std::string, double > DPars_IN
A map for the list of mandatory parameters in the model being used.
std::map< std::string, double > StandardModel()
A method that generates the map of the mandatory model parameters for StandardModel.
std::map<std::string, double> InputParameters::NPEffectiveGIMR ( )
inlineprivate

A method that generates the map of the mandatory model parameters for NPEffectiveGIMR.

Returns
the map of the mandatory parameters
Attention
The NP scale Lambda_NP is initialize to 1 TeV.

Definition at line 435 of file InputParameters.h.

436  {
438 
439  DPars_IN["cWB_NP"] = 0.;
440  DPars_IN["cH_NP"] = 0.;
441  DPars_IN["cLL_NP"] = 0.;
442  DPars_IN["cHLp_NP"] = 0.;
443  DPars_IN["cHQ1p_NP"] = 0.;
444  DPars_IN["cHQ2p_NP"] = 0.;
445  DPars_IN["cHQ3p_NP"] = 0.;
446  DPars_IN["cHL_NP"] = 0.;
447  DPars_IN["cHQ1_NP"] = 0.;
448  DPars_IN["cHQ2_NP"] = 0.;
449  DPars_IN["cHQ3_NP"] = 0.;
450  DPars_IN["cHE_NP"] = 0.;
451  DPars_IN["cHU1_NP"] = 0.;
452  DPars_IN["cHU2_NP"] = 0.;
453  DPars_IN["cHU3_NP"] = 0.;
454  DPars_IN["cHD1_NP"] = 0.;
455  DPars_IN["cHD2_NP"] = 0.;
456  DPars_IN["cHD3_NP"] = 0.;
457  DPars_IN["Lambda_NP"] = 1000.;
458 
459  return (DPars_IN);
460  };
std::map< std::string, double > DPars_IN
A map for the list of mandatory parameters in the model being used.
std::map< std::string, double > StandardModel()
A method that generates the map of the mandatory model parameters for StandardModel.
std::map<std::string, double> InputParameters::NPEpsilons ( )
inlineprivate

A method that generates the map of the mandatory model parameters for NPEpsilons.

Returns
the map of the mandatory parameters
Attention
The values of the epsilon parameters are initialized to their SM values [58].

Definition at line 295 of file InputParameters.h.

296  {
298 
299  DPars_IN["epsilon_1"] = 0.00521;
300  DPars_IN["epsilon_2"] = -0.00737;
301  DPars_IN["epsilon_3"] = 0.00528;
302  DPars_IN["epsilon_b"] = -0.00694;
303 
304  return (DPars_IN);
305  };
std::map< std::string, double > DPars_IN
A map for the list of mandatory parameters in the model being used.
std::map< std::string, double > StandardModel()
A method that generates the map of the mandatory model parameters for StandardModel.
std::map<std::string, double> InputParameters::NPEpsilons_pureNP ( )
inlineprivate

A method that generates the map of the mandatory model parameters for NPEpsilons_pureNP.

Returns
the map of the mandatory parameters

Definition at line 311 of file InputParameters.h.

312  {
314 
315  DPars_IN["delEps_1"] = 0.;
316  DPars_IN["delEps_2"] = 0.;
317  DPars_IN["delEps_3"] = 0.;
318  DPars_IN["delEps_b"] = 0.;
319 
320  return (DPars_IN);
321  };
std::map< std::string, double > DPars_IN
A map for the list of mandatory parameters in the model being used.
std::map< std::string, double > StandardModel()
A method that generates the map of the mandatory model parameters for StandardModel.
std::map<std::string, double> InputParameters::NPHiggs ( )
inlineprivate

A method that generates the map of the mandatory model parameters for NPHiggs.

Returns
the map of the mandatory parameters
Attention
The cutoff scale LambdaNP is initialize to 0, i.e., it is taken to be \(\Lambda = 4\pi v/\sqrt{|1-a^2|}\) as explained in the description of NPHiggs class.

Definition at line 346 of file InputParameters.h.

347  {
349 
350  DPars_IN["a"] = 1.;
351  DPars_IN["b"] = 1.;
352  DPars_IN["c_u"] = 1.;
353  DPars_IN["c_d"] = 1.;
354  DPars_IN["c_e"] = 1.;
355  DPars_IN["d_3"] = 1.;
356  DPars_IN["d_4"] = 1.;
357  DPars_IN["LambdaNP"] = 0.;
358 
359  return (DPars_IN);
360  };
std::map< std::string, double > DPars_IN
A map for the list of mandatory parameters in the model being used.
std::map< std::string, double > StandardModel()
A method that generates the map of the mandatory model parameters for StandardModel.
std::map<std::string, double> InputParameters::NPSTU ( )
inlineprivate

A method that generates the map of the mandatory model parameters for NPSTU.

Returns
the map of the mandatory parameters

Definition at line 327 of file InputParameters.h.

328  {
330 
331  DPars_IN["obliqueS"] = 0.;
332  DPars_IN["obliqueT"] = 0.;
333  DPars_IN["obliqueU"] = 0.;
334 
335  return (DPars_IN);
336  };
std::map< std::string, double > DPars_IN
A map for the list of mandatory parameters in the model being used.
std::map< std::string, double > StandardModel()
A method that generates the map of the mandatory model parameters for StandardModel.
std::map<std::string, double> InputParameters::NPSTUZbbbarLR ( )
inlineprivate

A method that generates the map of the mandatory model parameters for NPSTUZbbbarLR.

Returns
the map of the mandatory parameters

Definition at line 366 of file InputParameters.h.

367  {
368  DPars_IN = NPSTU();
369 
370  DPars_IN["deltaGLb"] = 0.;
371  DPars_IN["deltaGRb"] = 0.;
372 
373  return (DPars_IN);
374  };
std::map< std::string, double > NPSTU()
A method that generates the map of the mandatory model parameters for NPSTU.
std::map< std::string, double > DPars_IN
A map for the list of mandatory parameters in the model being used.
std::map<std::string, double> InputParameters::NPZbbbarLR ( )
inlineprivate

A method that generates the map of the mandatory model parameters for NPZbbbar and NPZbbbarLinearized.

Returns
the map of the mandatory parameters

Definition at line 394 of file InputParameters.h.

395  {
397 
398  DPars_IN["deltaGLb"] = 0.;
399  DPars_IN["deltaGRb"] = 0.;
400 
401  return (DPars_IN);
402  };
std::map< std::string, double > DPars_IN
A map for the list of mandatory parameters in the model being used.
std::map< std::string, double > StandardModel()
A method that generates the map of the mandatory model parameters for StandardModel.
std::map<std::string, double> InputParameters::NPZbbbarVA ( )
inlineprivate

A method that generates the map of the mandatory model parameters for NPZbbbar and NPZbbbarLinearized.

Returns
the map of the mandatory parameters

Definition at line 380 of file InputParameters.h.

381  {
383 
384  DPars_IN["deltaGVb"] = 0.;
385  DPars_IN["deltaGAb"] = 0.;
386 
387  return (DPars_IN);
388  };
std::map< std::string, double > DPars_IN
A map for the list of mandatory parameters in the model being used.
std::map< std::string, double > StandardModel()
A method that generates the map of the mandatory model parameters for StandardModel.
std::map<std::string, double> InputParameters::StandardModel ( )
inlineprivate

A method that generates the map of the mandatory model parameters for StandardModel.

Returns
the map of the mandatory parameters
Attention
The parameters are initialized to the central values of the experimental data used in [58].

Definition at line 71 of file InputParameters.h.

72  {
73  DPars_IN["GF"] = 1.1663787e-5;
74  DPars_IN["ale"] = 7.2973525698e-3;
75  DPars_IN["AlsMz"] = 0.1184;
76  DPars_IN["dAle5Mz"] = 0.02750;
77  DPars_IN["Mz"] = 91.1875;
78  DPars_IN["mtop"] = 173.2;
79  DPars_IN["mHl"] = 125.6;
80  DPars_IN["delMw"] = 0.;
81  DPars_IN["delSin2th_l"] = 0.;
82  DPars_IN["delGammaZ"] = 0.;
83  DPars_IN["mup"] = 0.0023;
84  DPars_IN["mdown"] = 0.0048;
85  DPars_IN["mstrange"] = 0.095;
86  DPars_IN["mcharm"] = 1.275;
87  DPars_IN["mbottom"] = 4.18;
88  DPars_IN["muc"] = 1.275;
89  DPars_IN["mub"] = 4.18;
90  DPars_IN["mut"] = 164.;
91  DPars_IN["mneutrino_1"] = 0.;
92  DPars_IN["mneutrino_2"] = 0.;
93  DPars_IN["mneutrino_3"] = 0.;
94  DPars_IN["melectron"] = 5.109989e-4;
95  DPars_IN["mmu"] = 0.10565837;
96  DPars_IN["mtau"] = 1.77682;
97 
98  DPars_IN["MBd"] = 0.;
99  DPars_IN["tBd"] = 0.;
100  DPars_IN["MBs"] = 0.;
101  DPars_IN["tBs"] = 0.;
102  DPars_IN["MKstar"] = 0.;
103  DPars_IN["tKstar"] = 0.;
104  DPars_IN["Mphi"] = 0.;
105  DPars_IN["tphi"] = 0.;
106  DPars_IN["MBp"] = 0.;
107  DPars_IN["tBp"] = 0.;
108  DPars_IN["MK0"] = 0.;
109  DPars_IN["MKp"] = 0.;
110  DPars_IN["FK"] = 0.;
111  DPars_IN["FBs"] = 0.;
112  DPars_IN["FKstar"] = 0.;
113  DPars_IN["FKstarp"] = 0.;
114  DPars_IN["Fphi"] = 0.;
115  DPars_IN["FBsoFBd"] = 0.;
116  DPars_IN["BBsoBBd"] = 0.;
117  DPars_IN["BBs1"] = 0.;
118  DPars_IN["BBs2"] = 0.;
119  DPars_IN["BBs3"] = 0.;
120  DPars_IN["BBs4"] = 0.;
121  DPars_IN["BBs5"] = 0.;
122  DPars_IN["BBsscale"] = 0.;
123  DPars_IN["BBsscheme"] = 0.;
124  DPars_IN["lambda"] = 0.;
125  DPars_IN["A"] = 0.;
126  DPars_IN["rhob"] = 0.;
127  DPars_IN["etab"] = 0.;
128  DPars_IN["muw"] = 0.;
129  DPars_IN["phiEpsK"] = 0.;
130  DPars_IN["KbarEpsK"] = 0.;
131  DPars_IN["DeltaMK"] = 0.;
132  DPars_IN["Dmk"] = 0.;
133  DPars_IN["SM_M12D"] = 0.;
134  DPars_IN["MD"] = 0.;
135  DPars_IN["FD"] = 0.;
136  DPars_IN["BD1"] = 0.;
137  DPars_IN["BD2"] = 0.;
138  DPars_IN["BD3"] = 0.;
139  DPars_IN["BD4"] = 0.;
140  DPars_IN["BD5"] = 0.;
141  DPars_IN["BDscale"] = 0.;
142  DPars_IN["BDscheme"] = 0.;
143  DPars_IN["BK1"] = 0.;
144  DPars_IN["BK2"] = 0.;
145  DPars_IN["BK3"] = 0.;
146  DPars_IN["BK4"] = 0.;
147  DPars_IN["BK5"] = 0.;
148  DPars_IN["BKscale"] = 0.;
149  DPars_IN["BKscheme"] = 0.;
150  DPars_IN["EpsK"] = 0.;
151  DPars_IN["BK(1/2)1"] = 0.;
152  DPars_IN["BK(1/2)2"] = 0.;
153  DPars_IN["BK(1/2)3"] = 0.;
154  DPars_IN["BK(1/2)4"] = 0.;
155  DPars_IN["BK(1/2)5"] = 0.;
156  DPars_IN["BK(1/2)6"] = 0.;
157  DPars_IN["BK(1/2)7"] = 0.;
158  DPars_IN["BK(1/2)8"] = 0.;
159  DPars_IN["BK(1/2)9"] = 0.;
160  DPars_IN["BK(1/2)10"] = 0.;
161  DPars_IN["BKd_scale"] = 0.;
162  DPars_IN["BKd_scheme"] = 0.;
163  DPars_IN["BK(3/2)1"] = 0.;
164  DPars_IN["BK(3/2)2"] = 0.;
165  DPars_IN["BK(3/2)3"] = 0.;
166  DPars_IN["BK(3/2)4"] = 0.;
167  DPars_IN["BK(3/2)5"] = 0.;
168  DPars_IN["BK(3/2)6"] = 0.;
169  DPars_IN["BK(3/2)7"] = 0.;
170  DPars_IN["BK(3/2)8"] = 0.;
171  DPars_IN["BK(3/2)9"] = 0.;
172  DPars_IN["BK(3/2)10"] = 0.;
173  DPars_IN["ReA2_Kd"] = 0.;
174  DPars_IN["ReA0_Kd"] = 0.;
175  DPars_IN["Omega_eta_etap"] = 0.;
176  DPars_IN["Br_Kp_P0enu"] = 0.;
177  DPars_IN["Br_Kp_munu"] = 0.;
178  DPars_IN["Br_B_Xcenu"] = 0.;
179  DPars_IN["DeltaP_cu"] = 0.;
180  DPars_IN["IB_Kl"] = 0.;
181  DPars_IN["IB_Kp"] = 0.;
182  DPars_IN["tKl"] = 0.;
183  DPars_IN["tKp"] = 0.;
184  DPars_IN["reh_0"] = 0.;
185  DPars_IN["reh_p"] = 0.;
186  DPars_IN["reh_m"] = 0.;
187  DPars_IN["imh_0"] = 0.;
188  DPars_IN["imh_p"] = 0.;
189  DPars_IN["imh_m"] = 0.;
190  DPars_IN["reh_0_1"] = 0.;
191  DPars_IN["reh_p_1"] = 0.;
192  DPars_IN["reh_m_1"] = 0.;
193  DPars_IN["imh_0_1"] = 0.;
194  DPars_IN["imh_p_1"] = 0.;
195  DPars_IN["imh_m_1"] = 0.;
196  DPars_IN["reh_0_2"] = 0.;
197  DPars_IN["reh_p_2"] = 0.;
198  DPars_IN["reh_m_2"] = 0.;
199  DPars_IN["imh_0_2"] = 0.;
200  DPars_IN["imh_p_2"] = 0.;
201  DPars_IN["imh_m_2"] = 0.;
202  DPars_IN["reh_0_MP"] = 0.;
203  DPars_IN["imh_0_MP"] = 0.;
204  DPars_IN["reh_0_1_MP"] = 0.;
205  DPars_IN["imh_0_1_MP"] = 0.;
206  DPars_IN["a_0V"] = 0.;
207  DPars_IN["a_1V"] = 0.;
208  DPars_IN["a_2V"] = 0.;
209  DPars_IN["MRV"] = 0.;
210  DPars_IN["a_0A0"] = 0.;
211  DPars_IN["a_1A0"] = 0.;
212  DPars_IN["a_2A0"] = 0.;
213  DPars_IN["MRA0"] = 0.;
214  DPars_IN["a_0A1"] = 0.;
215  DPars_IN["a_1A1"] = 0.;
216  DPars_IN["a_2A1"] = 0.;
217  DPars_IN["MRA1"] = 0.;
218  DPars_IN["a_0A12"] = 0.;
219  DPars_IN["a_1A12"] = 0.;
220  DPars_IN["a_2A12"] = 0.;
221  DPars_IN["MRA12"] = 0.;
222  DPars_IN["a_0T1"] = 0.;
223  DPars_IN["a_1T1"] = 0.;
224  DPars_IN["a_2T1"] = 0.;
225  DPars_IN["MRT1"] = 0.;
226  DPars_IN["a_0T2"] = 0.;
227  DPars_IN["a_1T2"] = 0.;
228  DPars_IN["a_2T2"] = 0.;
229  DPars_IN["MRT2"] = 0.;
230  DPars_IN["a_0T23"] = 0.;
231  DPars_IN["a_1T23"] = 0.;
232  DPars_IN["a_2T23"] = 0.;
233  DPars_IN["MRT23"] = 0.;
234  DPars_IN["a_0Vphi"] = 0.;
235  DPars_IN["a_1Vphi"] = 0.;
236  DPars_IN["a_2Vphi"] = 0.;
237  DPars_IN["MRVphi"] = 0.;
238  DPars_IN["a_0A0phi"] = 0.;
239  DPars_IN["a_1A0phi"] = 0.;
240  DPars_IN["a_2A0phi"] = 0.;
241  DPars_IN["MRA0phi"] = 0.;
242  DPars_IN["a_0A1phi"] = 0.;
243  DPars_IN["a_1A1phi"] = 0.;
244  DPars_IN["a_2A1phi"] = 0.;
245  DPars_IN["MRA1phi"] = 0.;
246  DPars_IN["a_0A12phi"] = 0.;
247  DPars_IN["a_1A12phi"] = 0.;
248  DPars_IN["a_2A12phi"] = 0.;
249  DPars_IN["MRA12phi"] = 0.;
250  DPars_IN["a_0T1phi"] = 0.;
251  DPars_IN["a_1T1phi"] = 0.;
252  DPars_IN["a_2T1phi"] = 0.;
253  DPars_IN["MRT1phi"] = 0.;
254  DPars_IN["a_0T2phi"] = 0.;
255  DPars_IN["a_1T2phi"] = 0.;
256  DPars_IN["a_2T2phi"] = 0.;
257  DPars_IN["MRT2phi"] = 0.;
258  DPars_IN["a_0T23phi"] = 0.;
259  DPars_IN["a_1T23phi"] = 0.;
260  DPars_IN["a_2T23phi"] = 0.;
261  DPars_IN["MRT23phi"] = 0.;
262  DPars_IN["r_1_fplus"] = 0.;
263  DPars_IN["r_2_fplus"] = 0.;
264  DPars_IN["m_fit2_fplus"] = 0.;
265  DPars_IN["r_1_fT"] = 0.;
266  DPars_IN["r_2_fT"] = 0.;
267  DPars_IN["m_fit2_fT"] = 0.;
268  DPars_IN["r_2_f0"] = 0.;
269  DPars_IN["m_fit2_f0"] = 0.;
270  DPars_IN["bsgamma_E0"] = 0.;
271  DPars_IN["BLNPcorr"] = 0.;
272  DPars_IN["Gambino_mukin"] = 0.;
273  DPars_IN["Gambino_BRsem"] = 0.;
274  DPars_IN["Gambino_Mbkin"] = 0.;
275  DPars_IN["Gambino_Mcatmuc"] = 0.;
276  DPars_IN["Gambino_mupi2"] = 0.;
277  DPars_IN["Gambino_rhoD3"] = 0.;
278  DPars_IN["Gambino_muG2"] = 0.;
279  DPars_IN["Gambino_rhoLS3"] = 0.;
280  DPars_IN["lambdaB"] = 0.3;
281  DPars_IN["alpha1kst"] = 0.;
282  DPars_IN["alpha2kst"] = 0.;
283  DPars_IN["DGs_Gs"] = 0.;
284 
285  return (DPars_IN);
286  };
std::map< std::string, double > DPars_IN
A map for the list of mandatory parameters in the model being used.

Member Data Documentation

std::map<std::string, double> InputParameters::DPars_IN
private

A map for the list of mandatory parameters in the model being used.

Definition at line 460 of file InputParameters.h.


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