~ejungwoo/geant4/G4DNASancheExcitationModel_8cc_source.html

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 // $Id: G4DNASancheExcitationModel.cc 105719 2017-08-16 12:36:37Z gcosmo $

 //


 // Created by Z. Francis


 #include <G4DNASancheExcitationModel.hh>

 #include "G4SystemOfUnits.hh"

 #include "G4DNAMolecularMaterial.hh"


 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......


 using namespace std;


 //#define SANCHE_VERBOSE


 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......


 G4DNASancheExcitationModel::G4DNASancheExcitationModel(const G4ParticleDefinition*,

                                                        const G4String& nam) :

     G4VEmModel(nam), isInitialised(false)

 {

   fpWaterDensity = 0;


   SetLowEnergyLimit(2.*eV);

   SetHighEnergyLimit(100 * eV);

   nLevels = 9;


   verboseLevel = 0;

   // Verbosity scale:

   // 0 = nothing

   // 1 = warning for energy non-conservation

   // 2 = details of energy budget

   // 3 = calculation of cross sections, file openings, sampling of atoms

   // 4 = entering in methods


 #ifdef SANCHE_VERBOSE

   if (verboseLevel > 0)

   {

     G4cout << "Sanche Excitation model is constructed "

            << G4endl

            << "Energy range: "

            << LowEnergyLimit() / eV << " eV - "

            << HighEnergyLimit() / eV << " eV"

            << G4endl;

   }

 #endif


   fParticleChangeForGamma = 0;

   fpWaterDensity = 0;


   // Selection of stationary mode


   statCode = false;

 }


 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......


 G4DNASancheExcitationModel::~G4DNASancheExcitationModel()

 {

 }


 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......


 void

 G4DNASancheExcitationModel::

 Initialise(const G4ParticleDefinition* /*particle*/,

            const G4DataVector& /*cuts*/)

 {


 #ifdef SANCHE_VERBOSE

   if (verboseLevel > 3)

   {

     G4cout << "Calling G4DNASancheExcitationModel::Initialise()"

            << G4endl;

   }

 #endif


   // Energy limits


   if (LowEnergyLimit() < 2.*eV)

   {

     G4Exception("*** WARNING : the G4DNASancheExcitationModel class is not "

                 "validated below 2 eV !",

                 "", JustWarning, "");

   }


   if (HighEnergyLimit() > 100.*eV)

   {

     G4cout << "G4DNASancheExcitationModel: high energy limit decreased from " <<

     HighEnergyLimit()/eV << " eV to " << 100. << " eV" << G4endl;

     SetHighEnergyLimit(100.*eV);

   }


   //

 #ifdef SANCHE_VERBOSE

   if (verboseLevel > 0)

   {

     G4cout << "Sanche Excitation model is initialized " << G4endl

     << "Energy range: "

     << LowEnergyLimit() / eV << " eV - "

     << HighEnergyLimit() / eV << " eV"

     << G4endl;

   }

 #endif


   // Initialize water density pointer

   fpWaterDensity = G4DNAMolecularMaterial::Instance()->

       GetNumMolPerVolTableFor(G4Material::GetMaterial("G4_WATER"));


   if (isInitialised) {return;} // RETURNS HERE


   fParticleChangeForGamma = GetParticleChangeForGamma();

   isInitialised = true;


   char *path = getenv("G4LEDATA");

   std::ostringstream eFullFileName;

   eFullFileName << path << "/dna/sigma_excitationvib_e_sanche.dat";

   std::ifstream input(eFullFileName.str().c_str());


   if (!input)

   {

     G4Exception("G4DNASancheExcitationModel::Initialise","em0003",

         FatalException,"Missing data file:/dna/sigma_excitationvib_e_sanche.dat");

   }


   // March 25th, 2014 - Vaclav Stepan, Sebastien Incerti

   // Added clear for MT

   tdummyVec.clear();

   //


   G4double t;

   G4double xs;


   while(!input.eof())

   {

     input>>t;

     tdummyVec.push_back(t);


     fEnergyLevelXS.push_back(std::vector<G4double>());

     fEnergyTotalXS.push_back(0);

     std::vector<G4double>& levelXS = fEnergyLevelXS.back();

     levelXS.reserve(9);


 //    G4cout<<t;


     for(size_t i = 0 ; i < 9 ;++i)

     {

       input>>xs;

       levelXS.push_back(xs);

       fEnergyTotalXS.back() += xs;

 //      G4cout <<"  " << levelXS[i];

     }


 //    G4cout << G4endl;

   }

 }


 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......


 G4double G4DNASancheExcitationModel::CrossSectionPerVolume(const G4Material* material,

                                                            const G4ParticleDefinition*

 #ifdef SANCHE_VERBOSE

                                                            particleDefinition

 #endif

                                                            ,

                                                            G4double ekin,

                                                            G4double,

                                                            G4double)

 {

 #ifdef SANCHE_VERBOSE

   if (verboseLevel > 3)

   {

     G4cout << "Calling CrossSectionPerVolume() of G4DNASancheExcitationModel"

            << G4endl;

   }

 #endif


   // Calculate total cross section for model


   G4double sigma = 0.;


   G4double waterDensity = (*fpWaterDensity)[material->GetIndex()];


   if(waterDensity!= 0.0)

   {

     if (ekin >= LowEnergyLimit() && ekin < HighEnergyLimit())

       // for now this is necessary

     {

       //sigma = Sum(ekin);

       sigma =  TotalCrossSection(ekin);

     }


 #ifdef SANCHE_VERBOSE

     if (verboseLevel > 2)

     {

       G4cout << "__________________________________" << G4endl;

       G4cout << "=== G4DNASancheExcitationModel - XS INFO START" << G4endl;

       G4cout << "=== Kinetic energy(eV)=" << ekin/eV << " particle : " << particleDefinition->GetParticleName() << G4endl;

       G4cout << "=== Cross section per water molecule (cm^2)=" << sigma/cm/cm << G4endl;

       G4cout << "=== Cross section per water molecule (cm^-1)=" << sigma*waterDensity/(1./cm) << G4endl;

       G4cout << "=== G4DNASancheExcitationModel - XS INFO END" << G4endl;

     }

 #endif

   } // if water


   return sigma*2.*waterDensity;

   // see papers for factor 2 description


 }


 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......


 void G4DNASancheExcitationModel::SampleSecondaries(std::vector<

                                                        G4DynamicParticle*>*,

                                                    const G4MaterialCutsCouple*,

                                                    const G4DynamicParticle* aDynamicElectron,

                                                    G4double,

                                                    G4double)

 {

 #ifdef SANCHE_VERBOSE

   if (verboseLevel > 3)

   {

     G4cout << "Calling SampleSecondaries() of G4DNASancheExcitationModel"

            << G4endl;

   }

 #endif


   G4double electronEnergy0 = aDynamicElectron->GetKineticEnergy();

   G4int level = RandomSelect(electronEnergy0);

   G4double excitationEnergy = VibrationEnergy(level); // levels go from 0 to 8

   G4double newEnergy = electronEnergy0 - excitationEnergy;


   /*

    if (electronEnergy0 < highEnergyLimit)

    {

      if (newEnergy >= lowEnergyLimit)

      {

        fParticleChangeForGamma->ProposeMomentumDirection(aDynamicElectron->GetMomentumDirection());

        fParticleChangeForGamma->SetProposedKineticEnergy(newEnergy);

        fParticleChangeForGamma->ProposeLocalEnergyDeposit(excitationEnergy);

      }


      else

      {

        fParticleChangeForGamma->ProposeTrackStatus(fStopAndKill);

        fParticleChangeForGamma->ProposeLocalEnergyDeposit(electronEnergy0);

      }

    }

    */


   if (electronEnergy0 < HighEnergyLimit() && newEnergy>0.)

   {


     if (!statCode)

     {

       fParticleChangeForGamma->ProposeMomentumDirection(aDynamicElectron->GetMomentumDirection());

       fParticleChangeForGamma->SetProposedKineticEnergy(newEnergy);

       fParticleChangeForGamma->ProposeLocalEnergyDeposit(excitationEnergy);

     }


     else

     {

       fParticleChangeForGamma->ProposeMomentumDirection(aDynamicElectron->GetMomentumDirection());

       fParticleChangeForGamma->SetProposedKineticEnergy(electronEnergy0);

       fParticleChangeForGamma->ProposeLocalEnergyDeposit(excitationEnergy);

     }


   }


   //

 }


 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......


 G4double G4DNASancheExcitationModel::PartialCrossSection(G4double t,

                                                          G4int level)

 {

   std::vector<G4double>::iterator t2 = std::upper_bound(tdummyVec.begin(),

                                                       tdummyVec.end(), t / eV);

   std::vector<G4double>::iterator t1 = t2 - 1;


   size_t i1 = t1 - tdummyVec.begin();

   size_t i2 = t2 - tdummyVec.begin();


   G4double sigma = LinInterpolate((*t1), (*t2),

                                 t / eV,

                                 fEnergyLevelXS[i1][level],

                                 fEnergyLevelXS[i2][level]);


   static const G4double conv_factor =  1e-16 * cm * cm;


   sigma *= conv_factor;

   if (sigma == 0.) sigma = 1e-30;

   return (sigma);

 }


 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......


 G4double G4DNASancheExcitationModel::TotalCrossSection(G4double t)

 {

   std::vector<G4double>::iterator t2 = std::upper_bound(tdummyVec.begin(),

                                                       tdummyVec.end(), t / eV);

   std::vector<G4double>::iterator t1 = t2 - 1;


   size_t i1 = t1 - tdummyVec.begin();

   size_t i2 = t2 - tdummyVec.begin();


   G4double sigma = LinInterpolate((*t1), (*t2),

                                 t / eV,

                                 fEnergyTotalXS[i1],

                                 fEnergyTotalXS[i2]);


   static const G4double conv_factor =  1e-16 * cm * cm;


   sigma *= conv_factor;

   if (sigma == 0.) sigma = 1e-30;

   return (sigma);

 }


 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......


 G4double G4DNASancheExcitationModel::VibrationEnergy(G4int level)

 {

   static G4double energies[9] = { 0.01, 0.024, 0.061, 0.092, 0.204, 0.417, 0.460,

                            0.500, 0.835 };

   return (energies[level] * eV);

 }


 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......


 G4int G4DNASancheExcitationModel::RandomSelect(G4double k)

 {


   // Level Selection Counting can be done here !


   G4int i = nLevels;

   G4double value = 0.;

   std::deque<G4double> values;


   while (i > 0)

   {

     i--;

     G4double partial = PartialCrossSection(k, i);

     values.push_front(partial);

     value += partial;

   }


   value *= G4UniformRand();


   i = nLevels;


   while (i > 0)

   {

     i--;

     if (values[i] > value)

     {

       //outcount<<i<<"  "<<VibrationEnergy(i)<<G4endl;

       return i;

     }

     value -= values[i];

   }


   //outcount<<0<<"  "<<VibrationEnergy(0)<<G4endl;


   return 0;

 }


 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......


 G4double G4DNASancheExcitationModel::Sum(G4double k)

 {

   G4double totalCrossSection = 0.;


   for (G4int i = 0; i < nLevels; i++)

   {

     totalCrossSection += PartialCrossSection(k, i);

   }


   return totalCrossSection;

 }


 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......


 G4double G4DNASancheExcitationModel::LinInterpolate(G4double e1,

                                                     G4double e2,

                                                     G4double e,

                                                     G4double xs1,

                                                     G4double xs2)

 {

   G4double a = (xs2 - xs1) / (e2 - e1);

   G4double b = xs2 - a * e2;

   G4double value = a * e + b;

   // G4cout<<"interP >>  "<<e1<<"  "<<e2<<"  "<<e<<"  "<<xs1<<"  "<<xs2<<"  "<<a<<"  "<<b<<"  "<<value<<G4endl;


   return value;

 }


G4DNASancheExcitationModel::TotalCrossSection
G4double TotalCrossSection(G4double t)
Definition: G4DNASancheExcitationModel.cc:324

G4DNASancheExcitationModel::Initialise
virtual void Initialise(const G4ParticleDefinition *, const G4DataVector &)
Definition: G4DNASancheExcitationModel.cc:91

G4VEmModel
Definition: G4VEmModel.hh:104

G4DNASancheExcitationModel::fParticleChangeForGamma
G4ParticleChangeForGamma * fParticleChangeForGamma
Definition: G4DNASancheExcitationModel.hh:84

a
std::vector< ExP01TrackerHit * > a
Definition: ExP01Classes.hh:33

G4DNASancheExcitationModel::SampleSecondaries
virtual void SampleSecondaries(std::vector< G4DynamicParticle * > *, const G4MaterialCutsCouple *, const G4DynamicParticle *, G4double tmin, G4double maxEnergy)
Definition: G4DNASancheExcitationModel.cc:238

t1
TTree * t1
Definition: plottest35.C:26

G4DNASancheExcitationModel::G4DNASancheExcitationModel
G4DNASancheExcitationModel(const G4ParticleDefinition *p=0, const G4String &nam="DNASancheExcitationModel")
Definition: G4DNASancheExcitationModel.cc:43

G4VEmModel::SetHighEnergyLimit
void SetHighEnergyLimit(G4double)
Definition: G4VEmModel.hh:707

G4Material::GetIndex
size_t GetIndex() const
Definition: G4Material.hh:262

G4endl
#define G4endl
Definition: G4ios.hh:61

G4DynamicParticle::GetMomentumDirection
const G4ThreeVector & GetMomentumDirection() const

G4DNASancheExcitationModel::CrossSectionPerVolume
virtual G4double CrossSectionPerVolume(const G4Material *material, const G4ParticleDefinition *p, G4double ekin, G4double emin, G4double emax)
Definition: G4DNASancheExcitationModel.cc:185

G4Material
Definition: G4Material.hh:121

G4MaterialCutsCouple
Definition: G4MaterialCutsCouple.hh:50

G4DataVector
Definition: G4DataVector.hh:50

G4String
Definition: examples/extended/parallel/TopC/ParN02/AnnotatedFiles/G4String.hh:45

G4ParticleChangeForGamma::SetProposedKineticEnergy
void SetProposedKineticEnergy(G4double proposedKinEnergy)
Definition: G4ParticleChangeForGamma.hh:129

G4DynamicParticle
Definition: G4DynamicParticle.hh:73

G4DNASancheExcitationModel::Sum
G4double Sum(G4double k)
Definition: G4DNASancheExcitationModel.cc:395

G4Material::GetMaterial
static G4Material * GetMaterial(const G4String &name, G4bool warning=true)
Definition: G4Material.cc:608

G4VEmModel::LowEnergyLimit
G4double LowEnergyLimit() const
Definition: G4VEmModel.hh:616

G4DNASancheExcitationModel::nLevels
G4int nLevels
Definition: G4DNASancheExcitationModel.hh:99

JustWarning
Definition: G4ExceptionSeverity.hh:64

G4double
double G4double
Definition: G4Types.hh:76

G4DNASancheExcitationModel::VibrationEnergy
G4double VibrationEnergy(G4int level)
Definition: G4DNASancheExcitationModel.cc:347

value
const XML_Char int const XML_Char * value
Definition: expat.h:331

G4DNAMolecularMaterial::Instance
static G4DNAMolecularMaterial * Instance()
Definition: G4DNAMolecularMaterial.cc:76

G4ParticleChangeForGamma::ProposeMomentumDirection
void ProposeMomentumDirection(G4double Px, G4double Py, G4double Pz)
Definition: G4ParticleChangeForGamma.hh:147

G4UniformRand
#define G4UniformRand()
Definition: Randomize.hh:53

G4SystemOfUnits.hh

G4ParticleDefinition
Definition: G4ParticleDefinition.hh:73

eV
static constexpr double eV
Definition: G4SIunits.hh:215

t2
TTree * t2
Definition: plottest35.C:36

FatalException
Definition: G4ExceptionSeverity.hh:60

G4DNASancheExcitationModel::fEnergyLevelXS
std::vector< std::vector< G4double > > fEnergyLevelXS
Definition: G4DNASancheExcitationModel.hh:112

G4DNASancheExcitationModel::fEnergyTotalXS
std::vector< G4double > fEnergyTotalXS
Definition: G4DNASancheExcitationModel.hh:113

G4Exception
void G4Exception(const char *originOfException, const char *exceptionCode, G4ExceptionSeverity severity, const char *description)
Definition: G4Exception.hh:65

G4DNASancheExcitationModel::fpWaterDensity
const std::vector< G4double > * fpWaterDensity
Definition: G4DNASancheExcitationModel.hh:91

G4int
int G4int
Definition: G4Types.hh:78

G4DNASancheExcitationModel::tdummyVec
std::vector< G4double > tdummyVec
Definition: G4DNASancheExcitationModel.hh:111

G4VEmModel::SetLowEnergyLimit
void SetLowEnergyLimit(G4double)
Definition: G4VEmModel.hh:714

G4DNASancheExcitationModel::~G4DNASancheExcitationModel
virtual ~G4DNASancheExcitationModel()
Definition: G4DNASancheExcitationModel.cc:83

G4DNASancheExcitationModel::statCode
G4bool statCode
Definition: G4DNASancheExcitationModel.hh:88

G4DNASancheExcitationModel::LinInterpolate
G4double LinInterpolate(G4double e1, G4double e2, G4double e, G4double xs1, G4double xs2)
Definition: G4DNASancheExcitationModel.cc:409

G4DNASancheExcitationModel::isInitialised
G4bool isInitialised
Definition: G4DNASancheExcitationModel.hh:93

G4DynamicParticle::GetKineticEnergy
G4double GetKineticEnergy() const

cm
static constexpr double cm
Definition: G4SIunits.hh:119

G4cout
G4GLOB_DLL std::ostream G4cout

G4DNASancheExcitationModel::PartialCrossSection
G4double PartialCrossSection(G4double energy, G4int level)
Definition: G4DNASancheExcitationModel.cc:300

G4DNASancheExcitationModel::verboseLevel
G4int verboseLevel
Definition: G4DNASancheExcitationModel.hh:94

G4VEmModel::GetParticleChangeForGamma
G4ParticleChangeForGamma * GetParticleChangeForGamma()
Definition: G4VEmModel.cc:131

G4VParticleChange::ProposeLocalEnergyDeposit
void ProposeLocalEnergyDeposit(G4double anEnergyPart)

G4DNASancheExcitationModel::RandomSelect
G4int RandomSelect(G4double energy)
Definition: G4DNASancheExcitationModel.cc:356

e
Float_t e
Definition: extended/medical/dna/range/plot.C:35

G4VEmModel::HighEnergyLimit
G4double HighEnergyLimit() const
Definition: G4VEmModel.hh:609

G4DNASancheExcitationModel.hh

G4DNAMolecularMaterial.hh