doxygen/v3r5/LauRescatteringRes_8hh_source.html

 /*

 Copyright 2018 University of Warwick


 Licensed under the Apache License, Version 2.0 (the "License");

 you may not use this file except in compliance with the License.

 You may obtain a copy of the License at


     http://www.apache.org/licenses/LICENSE-2.0


 Unless required by applicable law or agreed to in writing, software

 distributed under the License is distributed on an "AS IS" BASIS,

 WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

 See the License for the specific language governing permissions and

 limitations under the License.

 */


 /*

 Laura++ package authors:

 John Back

 Paul Harrison

 Thomas Latham

 */


 #ifndef LAU_RESCATTERING_RES

 #define LAU_RESCATTERING_RES


 #include "TString.h"


 #include "LauComplex.hh"

 #include "LauAbsResonance.hh"


 class LauKinematics;

 class LauParameter;


 class LauRescatteringRes : public LauAbsResonance {


         public:


                 LauRescatteringRes(LauResonanceInfo* resInfo, const LauAbsResonance::LauResonanceModel resType,

                                 const Int_t resPairAmpInt, const LauDaughters* daughters);


                 virtual ~LauRescatteringRes();


                 virtual void initialise();


                 virtual LauComplex amplitude(const LauKinematics* kinematics);


                 virtual LauAbsResonance::LauResonanceModel getResonanceModel() const {return model_;}


                 virtual void setResonanceParameter(const TString& name, const Double_t value);


                 virtual void floatResonanceParameter(const TString& name);


                 virtual LauParameter* getResonanceParameter(const TString& name);


                 virtual const std::vector<LauParameter*>& getFloatingParameters();


         protected:


                 void setLambdaPiPi(const Double_t lambda);


                 Double_t getLambdaPiPi() const {return (lambdaPiPi_!=0) ? lambdaPiPi_->value() : 0.0;}


                 Bool_t fixLambdaPiPi() const {return (lambdaPiPi_!=0) ? lambdaPiPi_->fixed() : kTRUE;}


                 void setLambdaKK(const Double_t lambda);


                 Double_t getLambdaKK() const {return (lambdaKK_!=0) ? lambdaKK_->value() : 0.0;}


                 Bool_t fixLambdaKK() const {return (lambdaKK_!=0) ? lambdaKK_->fixed() : kTRUE;}


                 void setMs(const Double_t Ms);


                 Double_t getMs() const {return (Ms_!=0) ? Ms_->value() : 0.0;}


                 Bool_t fixMs() const {return (Ms_!=0) ? Ms_->fixed() : kTRUE;}


                 void setMf(const Double_t Mf);


                 Double_t getMf() const {return (Mf_!=0) ? Mf_->value() : 0.0;}


                 Bool_t fixMf() const {return (Mf_!=0) ? Mf_->fixed() : kTRUE;}


                 void setMprime(const Double_t Mprime);


                 Double_t getMprime() const {return (Mprime_!=0) ? Mprime_->value() : 0.0;}


                 Bool_t fixMprime() const {return (Mprime_!=0) ? Mprime_->fixed() : kTRUE;}


                 void setEps1(const Double_t Eps1);


                 Double_t getEps1() const {return (Eps1_!=0) ? Eps1_->value() : 0.0;}


                 Bool_t fixEps1() const {return (Eps1_!=0) ? Eps1_->fixed() : kTRUE;}


                 void setEps2(const Double_t Eps2);


                 Double_t getEps2() const {return (Eps2_!=0) ? Eps2_->value() : 0.0;}


                 Bool_t fixEps2() const {return (Eps2_!=0) ? Eps2_->fixed() : kTRUE;}


                 void setC0(const Double_t C0);


                 Double_t getC0() const {return (C0_!=0) ? C0_->value() : 0.0;}


                 Bool_t fixC0() const {return (C0_!=0) ? C0_->fixed() : kTRUE;}


                 virtual LauComplex resAmp(Double_t mass, Double_t spinTerm);


         private:

                 LauRescatteringRes(const LauRescatteringRes& rhs);


                 LauRescatteringRes& operator=(const LauRescatteringRes& rhs);


                 LauParameter* lambdaPiPi_;


                 LauParameter* lambdaKK_;


                 LauParameter* Mf_;


                 LauParameter* Ms_;


                 LauParameter* Mprime_;


                 LauParameter* Eps1_;


                 LauParameter* Eps2_;


                 LauParameter* C0_;


                 LauAbsResonance::LauResonanceModel model_;


                 ClassDef(LauRescatteringRes,0)

 };


 #endif

LauRescatteringRes::fixEps2
Bool_t fixEps2() const
See if the Eps2 parameter is fixed or floating.
Definition: LauRescatteringRes.hh:238

LauRescatteringRes::getEps2
Double_t getEps2() const
Get the Eps2.
Definition: LauRescatteringRes.hh:232

LauRescatteringRes::getMf
Double_t getMf() const
Get the Mf.
Definition: LauRescatteringRes.hh:175

LauParameter::fixed
Bool_t fixed() const
Check whether the parameter is fixed or floated.
Definition: LauParameter.hh:228

LauRescatteringRes::initialise
virtual void initialise()
Initialise the model.
Definition: LauRescatteringRes.cc:130

LauRescatteringRes::setLambdaPiPi
void setLambdaPiPi(const Double_t lambda)
Set the parameter lambdaPiPi, the term for the PiPi.
Definition: LauRescatteringRes.cc:398

LauRescatteringRes::model_
LauAbsResonance::LauResonanceModel model_
The model to use.
Definition: LauRescatteringRes.hh:299

LauRescatteringRes::Eps1_
LauParameter * Eps1_
the term for the Eps1
Definition: LauRescatteringRes.hh:290

LauRescatteringRes::getEps1
Double_t getEps1() const
Get the Eps1.
Definition: LauRescatteringRes.hh:213

LauRescatteringRes::fixLambdaKK
Bool_t fixLambdaKK() const
See if the lambdaKK parameter is fixed or floating.
Definition: LauRescatteringRes.hh:144

LauResonanceInfo
Class for defining the properties of a resonant particle.
Definition: LauResonanceInfo.hh:46

LauDaughters
Class that defines the particular 3-body decay under study.
Definition: LauDaughters.hh:47

LauRescatteringRes::getFloatingParameters
virtual const std::vector< LauParameter * > & getFloatingParameters()
Retrieve the resonance parameters, e.g. so that they can be loaded into a fit.
Definition: LauRescatteringRes.cc:222

LauRescatteringRes::getMs
Double_t getMs() const
Get the Ms.
Definition: LauRescatteringRes.hh:156

LauRescatteringRes::setEps2
void setEps2(const Double_t Eps2)
Set the parameter Eps2.
Definition: LauRescatteringRes.cc:440

LauRescatteringRes::setMs
void setMs(const Double_t Ms)
Set the parameter Ms.
Definition: LauRescatteringRes.cc:419

LauRescatteringRes::lambdaKK_
LauParameter * lambdaKK_
the term for the KK
Definition: LauRescatteringRes.hh:278

LauRescatteringRes::fixMprime
Bool_t fixMprime() const
See if the Mprime parameter is fixed or floating.
Definition: LauRescatteringRes.hh:200

LauRescatteringRes::setResonanceParameter
virtual void setResonanceParameter(const TString &name, const Double_t value)
Set value of the various parameters.
Definition: LauRescatteringRes.cc:254

LauRescatteringRes::fixMs
Bool_t fixMs() const
See if the Ms parameter is fixed or floating.
Definition: LauRescatteringRes.hh:162

LauRescatteringRes::lambdaPiPi_
LauParameter * lambdaPiPi_
the term for the PiPi
Definition: LauRescatteringRes.hh:275

LauRescatteringRes::setLambdaKK
void setLambdaKK(const Double_t lambda)
Set the parameter lambdaKK, the term for the KK.
Definition: LauRescatteringRes.cc:405

LauRescatteringRes::getResonanceModel
virtual LauAbsResonance::LauResonanceModel getResonanceModel() const
Get the resonance model type.
Definition: LauRescatteringRes.hh:81

LauRescatteringRes::getC0
Double_t getC0() const
Get the C0.
Definition: LauRescatteringRes.hh:251

LauRescatteringRes::getLambdaKK
Double_t getLambdaKK() const
Get the lambdaKK, the term for the KK.
Definition: LauRescatteringRes.hh:138

LauRescatteringRes::getLambdaPiPi
Double_t getLambdaPiPi() const
Get the lambdaPiPi, the term for the PiPi.
Definition: LauRescatteringRes.hh:120

LauRescatteringRes::Ms_
LauParameter * Ms_
the term for the Ms
Definition: LauRescatteringRes.hh:284

LauRescatteringRes::operator=
LauRescatteringRes & operator=(const LauRescatteringRes &rhs)
Copy assignment operator (not implemented)

LauComplex.hh
File containing declaration of LauComplex class.

LauRescatteringRes::resAmp
virtual LauComplex resAmp(Double_t mass, Double_t spinTerm)
Complex resonant amplitude.
Definition: LauRescatteringRes.cc:214

LauRescatteringRes::fixMf
Bool_t fixMf() const
See if the Mf parameter is fixed or floating.
Definition: LauRescatteringRes.hh:181

LauRescatteringRes::Mf_
LauParameter * Mf_
the term for the Mf_
Definition: LauRescatteringRes.hh:281

LauRescatteringRes::setMprime
void setMprime(const Double_t Mprime)
Set the parameter Mprime.
Definition: LauRescatteringRes.cc:426

LauRescatteringRes::setC0
void setC0(const Double_t C0)
Set the parameter C0.
Definition: LauRescatteringRes.cc:447

LauParameter
Class for defining the fit parameter objects.
Definition: LauParameter.hh:49

LauRescatteringRes::amplitude
virtual LauComplex amplitude(const LauKinematics *kinematics)
Get the complex dynamical amplitude.
Definition: LauRescatteringRes.cc:150

LauRescatteringRes::getMprime
Double_t getMprime() const
Get the Mprime.
Definition: LauRescatteringRes.hh:194

LauRescatteringRes::floatResonanceParameter
virtual void floatResonanceParameter(const TString &name)
Allow the various parameters to float in the fit.
Definition: LauRescatteringRes.cc:294

LauRescatteringRes::setMf
void setMf(const Double_t Mf)
Set the parameter Mf.
Definition: LauRescatteringRes.cc:412

LauRescatteringRes::getResonanceParameter
virtual LauParameter * getResonanceParameter(const TString &name)
Access the given resonance parameter.
Definition: LauRescatteringRes.cc:366

LauRescatteringRes::fixLambdaPiPi
Bool_t fixLambdaPiPi() const
See if the lambdaPiPi parameter is fixed or floating.
Definition: LauRescatteringRes.hh:126

LauRescatteringRes::fixEps1
Bool_t fixEps1() const
See if the Eps1 parameter is fixed or floating.
Definition: LauRescatteringRes.hh:219

LauRescatteringRes::LauRescatteringRes
LauRescatteringRes(LauResonanceInfo *resInfo, const LauAbsResonance::LauResonanceModel resType, const Int_t resPairAmpInt, const LauDaughters *daughters)
Constructor.
Definition: LauRescatteringRes.cc:43

LauAbsResonance::LauResonanceModel
LauResonanceModel
Define the allowed resonance types.
Definition: LauAbsResonance.hh:55

LauRescatteringRes
Class for defining the rescattering model.
Definition: LauRescatteringRes.hh:49

LauRescatteringRes::~LauRescatteringRes
virtual ~LauRescatteringRes()
Destructor.
Definition: LauRescatteringRes.cc:126

LauAbsResonance
Abstract class for defining type for resonance amplitude models (Breit-Wigner, Flatte etc...
Definition: LauAbsResonance.hh:51

LauRescatteringRes::Eps2_
LauParameter * Eps2_
the term for the Eps2
Definition: LauRescatteringRes.hh:293

LauRescatteringRes::C0_
LauParameter * C0_
the term for the C0
Definition: LauRescatteringRes.hh:296

LauAbsResonance.hh
File containing declaration of LauAbsResonance class.

LauComplex
Class for defining a complex number.
Definition: LauComplex.hh:61

LauRescatteringRes::Mprime_
LauParameter * Mprime_
the term for the Mprime
Definition: LauRescatteringRes.hh:287

LauKinematics
Class for calculating 3-body kinematic quantities.
Definition: LauKinematics.hh:45

LauParameter::value
Double_t value() const
The value of the parameter.
Definition: LauParameter.hh:168

LauRescatteringRes::setEps1
void setEps1(const Double_t Eps1)
Set the parameter Eps1.
Definition: LauRescatteringRes.cc:433

LauRescatteringRes::fixC0
Bool_t fixC0() const
See if the C0 parameter is fixed or floating.
Definition: LauRescatteringRes.hh:257