diff --git a/EvtGenModels/EvtBToDiBaryonlnupQCD.hh b/EvtGenModels/EvtBToDiBaryonlnupQCD.hh new file mode 100644 index 0000000..99d1376 --- /dev/null +++ b/EvtGenModels/EvtBToDiBaryonlnupQCD.hh @@ -0,0 +1,56 @@ +//-------------------------------------------------------------------------- +// +// Environment: +// This software is part of the EvtGen package developed jointly +// for the BaBar and CLEO collaborations. If you use all or part +// of it, please give an appropriate acknowledgement. +// +// Copyright Information: +// Copyright (C) 1998 Caltech, UCSB +// +// Module: EvtGen/EvtBToDiBaryonlnupQCD.hh +// +// Description: Class to handle semileptonic B -> Baryon Anti-baryon l nu decays +// using the using form factor predictions from pQCD counting rules. Taken +// from arXiv:1107.0801 +// +// +// Modification history: +// +// Mark Smith July 17, 2017 Module created +// +//------------------------------------------------------------------------ + +#ifndef EVTBTODIBARYONLNUPQCD_HH +#define EVTBTODIBARYONLNUPQCD_HH + +#include "EvtGenBase/EvtDecayAmp.hh" +#include + +class EvtParticle; +class EvtBToDiBaryonlnupQCDFF; +class EvtSLDiBaryonAmp; + +class EvtBToDiBaryonlnupQCD: public EvtDecayAmp { + +public: + + EvtBToDiBaryonlnupQCD(); + virtual ~EvtBToDiBaryonlnupQCD(); + + std::string getName(); + EvtDecayBase* clone(); + + void decay(EvtParticle *p); + void initProbMax(); + void init(); + +private: + + EvtBToDiBaryonlnupQCDFF* ffModel; + EvtSLDiBaryonAmp* calcAmp; + +}; + +#endif + diff --git a/EvtGenModels/EvtBToDiBaryonlnupQCDFF.hh b/EvtGenModels/EvtBToDiBaryonlnupQCDFF.hh new file mode 100644 index 0000000..c27b903 --- /dev/null +++ b/EvtGenModels/EvtBToDiBaryonlnupQCDFF.hh @@ -0,0 +1,65 @@ +//-------------------------------------------------------------------------- +// +// Environment: +// This software is part of the EvtGen package developed jointly +// for the BaBar and CLEO collaborations. If you use all or part +// of it, please give an appropriate acknowledgement. +// +// Copyright Information: +// Copyright (C) 1998 Caltech, UCSB +// +// Module: EvtGen/EvtBToDiBaryonlnupQCDFF.hh.hh +// +// Description: Module for computation of B->ppbar form factors according +// to pQCD counting rules, see arXiv:1107.0801. +// +// Modification history: +// +// Mark Smith July 17, 2017 Module created +// +//------------------------------------------------------------------------ + +#ifndef EVTBTODIBARYONLNUPQCDFF_HH +#define EVTBTODIBARYONLNUPQCDFF_HH + +class EvtParticle; +#include + +class EvtBToDiBaryonlnupQCDFF { + +public: + + class FormFactors { + public: + FormFactors() {;} + + virtual ~FormFactors() {;} + + double F1, F2, F3, F4, F5; + double G1, G2, G3, G4, G5; + + }; + + EvtBToDiBaryonlnupQCDFF(); + + EvtBToDiBaryonlnupQCDFF(std::vector& DParameters); + + void getDiracFF(EvtParticle* parent, double dibaryonMass, + EvtBToDiBaryonlnupQCDFF::FormFactors& FF); + + void getRaritaFF(EvtParticle* parent, double dibaryonMass, + EvtBToDiBaryonlnupQCDFF::FormFactors& FF); + + void getFF(EvtParticle* parent, double dibaryonMass, + EvtBToDiBaryonlnupQCDFF::FormFactors& FF); + +private: + + std::vector DPars; + int nDPars; + +}; + +#endif + + diff --git a/EvtGenModels/EvtSLDiBaryonAmp.hh b/EvtGenModels/EvtSLDiBaryonAmp.hh new file mode 100644 index 0000000..bc13bf2 --- /dev/null +++ b/EvtGenModels/EvtSLDiBaryonAmp.hh @@ -0,0 +1,48 @@ +//-------------------------------------------------------------------------- +// +// Environment: +// This software is part of the EvtGen package developed jointly +// for the BaBar and CLEO collaborations. If you use all or part +// of it, please give an appropriate acknowledgement. +// +// Copyright Information: See EvtGen/COPYRIGHT +// Copyright (C) 1998 Caltech, UCSB +// +// Module: EvtGen/EvtSLDiBaryonAmp.hh +// +// Description: +// +// Modification history: +// +// Mark Smith July 18, 2017 Created +// +//------------------------------------------------------------------------ + +#ifndef EVTSLDIBARYONAMP_HH +#define EVTSLDIBARYONAMP_HH + +#include "EvtGenBase/EvtAmp.hh" +#include + +class EvtParticle; +class EvtBToDiBaryonlnupQCDFF; + +class EvtSLDiBaryonAmp { + +public: + + EvtSLDiBaryonAmp(EvtBToDiBaryonlnupQCDFF*); + + virtual ~EvtSLDiBaryonAmp() {;} + + void CalcAmp(EvtParticle *parent, EvtAmp& amp) const; + +private: + + EvtBToDiBaryonlnupQCDFF* ffModel; + +}; + +#endif + + diff --git a/History.txt b/History.txt index 84ac72c..02a6fc0 100644 --- a/History.txt +++ b/History.txt @@ -1,540 +1,545 @@ //========================================================================== // // History file for EvtGen // //=========================================================================== +5th November 2018 John Back + Added the BToDiBaryonlnupQCD model for generating B to p N* l nu decays, + where N can be any (exited) charged baryon (spin 1/2 or 3/2), courtesy of + Mark Smith and Ryan Newcombe (LHCb), with added code optimisations. + 17th October 2018 John Back Added various decay models from LHCb EvtGenExtras package: EvtBcVHad ("BC_VHAD"), Evtbs2llGammaMNT ("BSTOGLLMNT"), Evtbs2llGammaISRFSR ("BSTOGLLISRFSR"), EvtbTosllMS ("BTOSLLMS"), EvtbTosllMSExt ("BTOSLLMSEXT"), EvtLb2Baryonlnu ("Lb2Baryonlnu"), EvtLb2plnuLCSR ("Lb2plnuLCSR"), EvtLb2plnuLQCD ("Lb2plnuLQCD"), EvtFlatSqDalitz ("FLATSQDALITZ") and EvtPhspFlatLifetime ("PHSPFLATLIFETIME"). 5th October 2018 John Back Updated setupEvtGen.sh to work with the new HepForge Phabricator site. 13th March 2018 John Back Updated EvtPythiaEngine to correctly handle updates of various particle properties so that Pythia uses the same information as EvtGen (evt.pdl) for the generic and alias PYTHIA decay model. 12th March 2018 John Back Updated EvtBcXMuNu models (X = Scalar, Vector, Tensor) to generate Bc to D0(star) mu nu decays, with associated form factors in EvtBCXFF, courtesy of Aleksei Luchinskii (LHCb). Also generalised the calculation of their maximum probabilities by reusing the CalcMaxProb method in EvtSemiLeptonicAmp, which now allows for different Q^2 binning (default remains at 25 bins). R01-07-00------------------------------------------------------------------- 13th December 2017 John Back New tag incorporating all changes below. Recommended external packages are HepMC 2.06.09, pythia 8.230, Photos++ 3.61 and Tauola++ 1.1.6c, as used in the setupEvtGen.sh script. 12th December 2017 John Back Changed Pythia validation example decay files to use Pythia8 codes. 6th December 2017 John Back Modified the examples to use DECAY.DEC (see 25th April 2016) instead of DECAY_2010.DEC. Changed EvtExternalGenList to assume Pythia8 codes are used in decay files by default, which is the case for DECAY.DEC. Also updated the setupEvtGen.sh script to work with Pythia 8.2x versions. 29th November 2017 John Back Modified EvtSVP, EvtVVP and EvtTVP models to handle both radiative and two-lepton decays, courtesy of Aleksei Luchinskii (LHCb). 14th July 2017 John Back Only create external generator objects if they don't already exist in EvtExternalGenFactory. Modified configure script to work with Pythia 8.2x 5th July 2017 Michal Kreps Register the VTOSLL model. 14th June 2017 John Back Add isNeutralKaon() boolean function and corrected comments in EvtDDalitz. 8th May 2017 Michal Kreps Fix bug in EvtbTosllVectorAmp to recognise Bs --> K*bar mu mu decay as b --> d ll transition. 8th May 2017 Michal Kreps Significantly simplify way how we decide on decay mode and daughters ordering in DDalitz model. With new code by definition all orderings of daughters in the decay file will yield same output. 4th May 2017 John Back Further fixes to DDalitz particle ordering (including charge-conjugates): Mode 5: D0 -> K- K0bar K+ and K+ K- K0bar Mode 12: D0 -> pi0 pi- pi+ and pi+ pi0 pi- Removed unneeded index ordering checks for mode 10 (D+ -> pi- pi+ pi+) and mode 11 (Ds+ -> pi- pi+ pi+) 27th April 2017 John Back Fixed DDalitz particle ordering for mode 7: D+ -> pi+ K- K+ and K+ pi+ K- and their charge-conjugates 7th April 2017 John Back Modified EvtGenExternal/EvtPythiaEngine to ensure that the EvtGen-based instances of Pythia8 (for generic and alias decays) use the same particle properties as defined by EvtGen, courtesy Patrick Robbe (LHCb). 5th April 2017 Michal Kreps Fixed indexing in copy constructor of Evt3Rank3C, which would otherwise produce an infinite loop; bug report from David Grellscheid. 3rd November 2016 John Back Modified EvtFlatQ2 model to work for all B -> X lepton lepton modes, as well as adding an extra phase space factor to correct for the dip at low q^2, courtesy of Marcin Chrzaszcz & Thomas Blake (LHCb), which is enabled by using "FLATQ2 1" instead of just "FLATQ2" in the decay file. 13th October 2016 John Back Added the TauolaCurrentOption decfile keyword to select the hadronic current in Tauola; default is the BaBar-tuned current option (int = 1). EvtParticles can store double attributes using the functions setAttributeDouble(name, double) and getAttributeDouble(name), which can be useful for storing and retrieving amplitude weights, for example. The analogous EvtParticle integer attribute interface remains unchanged: setAttribute(name, int) and getAttribute(name). 13th September 2016 John Back Modified EvtTauolaEngine to use internal Tauola spin matrices for tau pair events by temporarily setting the PDG id of the mother as a boson, keeping the same 4-momentum. The BaBar hadronic currents are now used by default. Also added the ability to change some Tauola parameters using the "Define" keyword in decay files. Added an example decay file illustrating the new features: validation/TauolaFiles/Btautau.dec 9th September 2016 Michal Kreps Reimplement code in EvtBTo3pi.F, EvtBTo3piMPP.F, EvtBTo3piP00.F and EvtBToKpipi.F in C++ in order to remove dependence on Fortran compiler. With this, there is no internal Fortran code in EvtGen. R01-06-00------------------------------------------------------------------- 1st June 2016 John Back New tag incorporating all changes below. Recommended external packages are HepMC 2.06.09, pythia 8.186, Photos++ 3.61 and Tauola++ 1.1.5. 28th April 2016 Michal Kreps For Ds+ --> 2pi+ pi- there was double counting of branching fraction resulting in total branching fraction being 1.5 times larger than measured one. Fix by revisiting submodes, which now fill total Ds --> 3pi. 25th April 2016 Michal Kreps Added DECAY.DEC/XML, which contain updated semileptonic charm and beauty branching fractions using the 2014 PDG, tuned to minimize disagreements between measurements and EvtGen for both inclusive and exclusive decays. Updated the evt.pdl particle properties file to the PDG 2014 edition. Implemented new LQCD form factors for Lb --> L mu mu from arXiv paper 1602.01399 (EvtRareLbToLllFFlQCD); old LQCD form factors are removed. 18th March 2016 John Back Fixed incorrect spinor algebra used in S1 -> 1/2 S2, 1/2 -> S3 S4 decays in EvtDiracParticle::rotateToHelicityBasis() functions, courtesy of Luis Miguel Garcia Martin and the IFIC Valencia LHCb group. 19th Feburary 2016 John Back Fixed bug in the definition of the initial spinor term Sinit in EvtRareLbToLll::HadronicAmpRS(), from Tom Blake (LHCb). 12th February 2016 John Back From LHCb, added extensions to the EvtHQET2(FF) model for semitauonic decays from Brian Hamilton, which needs a patch to EvtSemiLeptonicAmp from Jack Wimberley to ensure that the q^2 range is physical when finding the maximum amplitude probability. 2nd December 2015 John Back From LHCb, added EvtKStopizmumu model for KS -> pi0 mu mu decays based on JHEP08(1998)004, courtesy of Veronika Chobanova, Diego Martinez Santos and Jeremy Dalseno. Added EvtConst::Fermi for Fermi coupling constant. R01-05-00------------------------------------------------------------------- 21st October 2015 John Back New tag incorporating all changes below. Recommended external packages are HepMC 2.06.09, pythia 8.186, Photos++ 3.61 and Tauola++ 1.1.5. Added the EvtB2MuMuMuNu model for simulating the very rare four-leptonic decays B- -> mu+ mu- anti-nu_mu mu-, courtesy Nikolai Nikitin. 16th October 2015 John Back Updated the configure script to automatically select the library names for PHOTOS++; version 3.56 and below uses Fortran, version 3.61 and above uses C++ only (default). Avoid using v3.60, since it does not work. This needs the PHOTOS libraries built before EvtGen is configured. Modified setupEvtGen.sh to use Photos++ v3.61. 7th October 2015 John Back Updated EvtGenExternal/EvtPhotosEngine to check that additional particles from the outgoing vertex are indeed (FSR) photons, since later versions of PHOTOS introduce pair emission, where particles may not always be photons. Added the genRootDecayChain.cc validation program to create ROOT files containing information about the complete decay tree. Two example test decay files BKstarGamma.dec and BuDst0rhop.dec can be used with this; the first tests PHOTOS, the second looks at sequential decay chain storage. The plotBKstarGamma.C ROOT macro can be used for B -> K* gamma plots. 2nd October 2015 John Back Modified EvtSVPHelAmp and added a new EvtSVPHelCPMix model, implementing the complete mixing phenomenology of Bs to vector gamma decays, courtesy of Clara Remon (LHCb). EvtD0mixDalitz code: cleanup, inverted q/p for decays of D0bar (simplifies user decay files) and fixed y parameter bug, courtesy of Jordi Tico (LHCb). Changed the initialisation order of the infrared cut-off in EvtPhotosEngine. This actually has no effect, since the exponentiation function sets it to the same 1e-7 value, but it's now in the correct order if we need to update it. Removed all remaining obsolete pragma (Win32) warnings from some classes. 23rd September 2015 Michal Kreps Reimplement the real Spence function in C++ and removed its fortran implementation. 15th September 2015 Michal Kreps Fixed accessed uninitialised memory in EvtPDL.cpp, line 213. Modified the configure and setupEvtGen.sh scripts to work on Mac; needed Mac compilation patch files added to the new "platform" subdirectory. 10th September 2015 John Back Updated setupEvtGen.sh to use the recommended external packages: HepMC 2.06.09, pythia 8.186, Photos++ 3.56 and Tauola++ 1.1.5. Fixed form-factor calculations for the BTOSLLBALL model 6 used to generate b -> sll decays, courtesy of Christoph Langenbruch and David Loh (LHCb). Affects B->K*ll, B->rholl and B->omegall, particularly the electron modes. In the validation directory, added runPhotosTest.sh for testing FSR in Upsilon(4S) -> e+ e- decays, and changed the plot comparison scripts to use the 2nd directory "oldRootFiles" (which could be a soft-link) for including ROOT histograms made from a previous version of EvtGen. 27th August 2015 John Back Added Mersenne-Twister random number generator (RNG) EvtMTRandomEngine. It requires c++11 compiler features (>= gcc 4.7), which should automatically be enabled by the configure script. Introduced the preprocessor environment variable EVTGEN_CPP11 for c++11 features. EvtMTRandomEngine is the default RNG for the validation and test examples if c++11 features are enabled. Added a phase-space test validation/genPHSP.sh and PhaseSpacePlots.C to visually check the flatness of Dalitz plots in order to ensure that the RNG is not producing biased results that depend on particle ordering. Added the models EvtbsToLLLLAmp and EvtbsToLLLLHyperCP for B0_q -> l+ l- l+ l- decays (SM and one supersymmetric scenario), courtesy of Nikolai Nikitin and Konstantin Toms. Documentation provided in doc/evt_BQTOLLLL_model.pdf and doc/evt_BQTOLLLLHYPERCP_model.pdf. Changed the installation and set-up script name to be just setupEvtGen.sh; it uses the VERSION variable to specify the required tag. List of tags are available using either "svn ls -v http://svn.cern.ch/guest/evtgen/tags" or by going to http://svn.cern.ch/guest/evtgen/tags in a web browser. 12th June 2015 John Back Changed the width of chi_b1 in evt.pdl from 9.8928 GeV (!) to zero. 1st May 2015 John Back Added Bc -> scalar ell nu (EvtBcSMuNu) and Bc -> tensor ell nu (EvtBcTMuNu) decays, courtesy of Jack Wimberley, LHCb. Also included the chi_c1 mode for EvtBcVMuNu. R01-04-00------------------------------------------------------------------- 2nd April 2015 John Back Removed the EvtStdlibRandomEngine class since this can produce biases to kinematic distributions when one or more of the daughters is a resonance, such as B0 -> K pi psi (thanks to Antonio Augusto Alves Jr who discovered this issue). EvtSimpleRandomEngine is now the default random number generator in the validation and test examples. Incorporated several additions and modifications from LHCb: a) From Michal Kreps, Tom Blake & Christoph Langenbruch, added rare Lb --> Lambda^(*) ell ell models described in arXiv:1108.6129, with various form factors from Gutsche et al. (arXiv:1301.3737) and lattice QCD (arXiv:1212.4827) b) From Andrew Crocombe, implemented Bs --> K* form factors from Ball-Zwicky and z-parametrization form factors from arXiv:1006.4945 for EvtbTosllBallFF c) Christoph Langenbruch fixed the Bs -> phi ll form factors in EvtbTosllBallFF; T3 showed a non-physical pole at very low q2 which significantly affected the electron mode d) From Michal Kreps, removed semicolons from wrong places to clear warnings when compiled with the "-pedantic" option. 9th October 2014 John Back Change svnweb.cern.ch to svn.cern.ch in the setup script. 1st April 2014 John Back In EvtReport, modified the logging output severity status flags to have the "EVTGEN_" prefix, e.g. INFO becomes EVTGEN_INFO. The global report() function has been renamed to EvtGenReport(). 31st March 2014 John Back Added the ability to store named attributes for EvtParticles in the form of a map. The setAttribute(name, value) stores the required value, while getAttribute(name) retrieves the integer value. This is used in EvtPhotosEngine to specify the final-state radiation "FSR" attribute to 1 for any additional photons (EvtPhotonParticles) created by Photos++. It also stores the "ISR" attribute, but this is always set to zero, since only FSR photons are created. If the named attribute doesn't exist, then getAttribute() returns zero. 29th January 2014 Daniel Craik Removed mass assertion on GS shape in EvtDalitzReso to allow it to also be used for charged rho resonances. 27th January 2014 John Back Minor corrections to Vub models to remove further gcc 4.8 warnings. Updated configure script to work for MacOS clang (from Genser team). R01-03-00------------------------------------------------------------------- 9th January 2014 John Back New tag version "1.3.0", incorporating all changes below. Replaced auto-install script to work with this version as well as the latest versions of all external generator packages. Updated README to mention the new CERN-based web pages for Photos++ and Tauola++. 8th January 2014 John Back Fix gcc 4.6 and 4.8 compilation warnings, courtesy of Patrick Robbe (LHCb); main changes are removal of unused variables. Changed the EvtPythiaEngine class and configure script to use new Pythia 8 header locations; Pythia 8.180 or above is now required. 7th January 2014 John Back Modified EvtBCVFF to correct the Kiselev form factors from Jack Wimberley (LHCb). 9th October 2013 Daniel Craik Added Gounaris-Sakurai and Gaussian shapes to EvtGenericDalitz and set sensible defaults for LASS parameters. 19th September 2013 John Back Modified EvtGenExternal/EvtPythiaEngine to keep track of any new particles that are added to the default Pythia database to avoid duplicating particle/anti-particle entries that could override previously defined Pythia decay chains. 18th September 2013 John Back Added Mac OS flags for the configure script and src/Makefile. 15th July 2013 Daniel Craik Added flag to turn on scaling of LASS amplitude by M/q in EvtDalitzReso 15th July 2013 Daniel Craik EvtParserXML now accepts file names containing environment variables, exponential non-resonant shape in EvtDalitzReso now defined as exp(-alpha*m^2), LASS shape in EvtDalitzReso now takes a cutoff parameter 4th July 2013 Daniel Craik Added LASS, exponential non-resonant and linear non-resonant shapes to EvtGenericDalitz. 3rd July 2013 Daniel Craik Fixed auto-install script for R01-02-00. 1st July 2013 Daniel Craik Added auto-install script for R01-02-00. R01-02-00------------------------------------------------------------------- 15th May 2013 John Back New tag, version "1.2.0", incorporating all changes below. 14th May 2013 Michal Kreps Added Blatt-Weisskopf barrier factors up to L=5 in EvtGenBase/EvtBlattWeisskopf::compute(). 14th May 2013 John Back Added additional entries (appended at the end) to the evt.pdl particle data file courtesy of Romulus Godang and Belle II colleagues. 14th March 2013 John Back Added the method EvtParticle::getPDGId() to get the PDG integer for a particle directly (which just calls EvtPDL::getStdHep()). Added a check in EvtPhotosEngine::doDecay to skip Photos if a given particle has too many daughters (>= 10) to avoid a problem with a hard coded upper limit in the Photos PHOENE subroutine. 2nd February 2013 Daniel Craik Updated EvtDalitzTable to estimate probMax when it is missing from a Dalitz model. 1st February 2013 John Back Added the ability to read in Pythia 6 commands in ascii decay files in EvtDecayTable::readDecayFile (this was already possible in xml files). Modified the Photos++ engine default settings to be more suited to B decays (from LHCb defaults). 31st January 2013 John Back Added the ability to read in Pythia 8 commands in ascii decay files in EvtDecayTable::readDecayFile. They can be set using the syntax: "PythiaTypeParam module:variable=value", where Type = Generic, Alias or Both for specifying whether the parameter is for the generic or alias Pythia decay engines (or both). The 2nd argument must not contain any spaces. Fixed the list of commands strings being used in the EvtPythiaEngine class (i.e. Pythia parameters that can be set via decay files). 31st January 2013 Daniel Craik Added named parameters to various decay models. 30th January 2013 John Back Fixed some of the parameter arguments used in the EvtSVSCPiso model. 24th January 2013 John Back Set the Photos++ and Tauola++ models to use the EvtGen random number engine when useEvtGenRandom is set to true in the EvtExternalGenList constructor. 23rd January 2013 John Back Added EvtGenExternal/EvtPythiaRandom to allow the use of the EvtGen random number engine to also be used for the random engine for Pythia 8. Added a boolean (useEvtGenRandom, default = true) within the EvtExternalGenList constructor to use this feature. 18th December 2012 John Back Corrected some wrong daughter ordering assignments for decay modes 5 and 12 in EvtDDalitz. Updated validation/DalitzDecays.xml to also contain D decay mode 12, as well as various modes that may use K_S0 and K_L0. Added validation/genDDalitzModes.sh and updated validation/compareDalitz.C to do a complete comparison of the D Dalitz modes with the xml versions. 11th December 2012 Daniel Craik Updated the Xml parser to support named model parameters. Updated the generic Dalitz model to use named model parameters as an example. 15th October 2012 John Back Make EvtSimpleRandomEngine inherit from EvtRandomEngine to avoid crash in EvtGen.cpp when no random engine is defined (from Bjoern Spruck). R01-01-00------------------------------------------------------------------- 4th October 2012 John Back New tag, version "1.1.0", incorporating all changes below. Provide proper default constructors for EvtVector4R and EvtPhotonParticle. Modified the validation and test code to also compile/link in the case of no external generators being included. 3rd October 2012 John Back Corrected the t3 vector form factor values for the Ball-Zwicky '05 model (modelId = 6) in EvtbTosllBallFF::getVectorFF(), which were set to t3tilde instead. 18th September 2012 John Back Moved the external generator engines to a new sub-directory EvtGenExternal. Building the code now creates 2 libraries: libEvtGen.so (Base+Models) and libEvtGenExternal.so. This allows anyone to ignore using the new external generators if required (by not creating/loading the 2nd library). Added prefix option to the configure script/Makefile to allow the user to specify an installation directory for the include files, libraries, DECAY.DEC and evt.pdl files (for Genser). 14th September 2012 Michal Kreps Fixed the calculation of the angle between decay planes in the function EvtKine::EvtDecayAngleChi. Fixed typo in EvtLb2Lll decay model. Only some NP scenarious could be affected, SM one is definitely unaffected. 13th September 2012 John Back Added the use of the environment variables EVTGEN_PHOTOS, EVTGEN_PYTHIA and EVTGEN_TAUOLA to specify if the Photos, Pythia and/or Tauola engine classes are used or not. These variables are set by the configure script, depending if the library paths are specified for these generators. R01-00-01-------------------------------------------------------------------- 12th September 2012 John Back New tag incorporating all changes below, since R01-00-00. 11th September 2012 John Back Modified the Photos and Tauola engine classes to use the new Photospp and Tauolapp namespaces that are present in the latest versions of Photos++(3.5) and Tauola++(1.0.7). Updated the configure file to get the correct location of the Tauola++ include files. Added the D0->pi+pi-pi0 decay mode in EvtDDalitz from Marco Gersabeck and Frederic Dreyer (LHCb). Added new decay models/classes from Alexey Luchinsky (LHCb): EvtBcVMuNu, EvtTVP, EvtWnPi, EvtSVP, EvtXPsiGamma, EvtBcVNpi 29th June 2012 John Back Corrected mass(squared) variables filled in the Dalitz TTree in validation/genExampleRootFiles. 15th May 2012 Daniel Craik Updated EvtD0gammaDalitz to deal with D mesons from neutral B->DK Added save function to validation/compareDalitz.C. 11th May 2012 Daniel Craik Replaced BaBar specific configuration for BlattWeisskopf birth factors. Updated XML conversion script to handle new configuration. Fixed some bugs in the XML conversion script related to particle modifications. 9th May 2012 Daniel Craik Added latex documentation for xml decay files. 2nd May 2012 Daniel Craik Added resDaughters attribute to the Dalitz resonance xml tag to simplify defining symmetric resonances. Updated validation xml files to use the new functionality. 27th April 2012 Daniel Craik Upgraded EvtGenericDalitz to use EvtDalitzReso for resonances. Added validation to compare EvtGenericDalitz to all 11 EvtDDalitz modes. Added a root macro to quickly compare two Dalitz decays for validation. 24th April 2012 John Back Solved two bugs in the EvtD0gammaDalitz model (from Jordi Tico, LHCb): configuration of the conjugated model, and using only the B charge to determine the model used, not the D flavour. 17th April 2012 Daniel Craik Updated the GenericDalitz validation code to use the same probMax values as DDalitz. Added XML decay file parsing to EvtGen::readUDecay. Dec files are still the default. 30th March 2012 John Back Update maximum probability values in EvtDDalitz::initProbMax() for all DDalitz modes. 23rd March 2012 John Back Added the EvtEta2MuMuGamma decay model from LHCb. 21st March 2012 John Back Added EvtD0gammaDalitz decay model from LHCb. 20th March 2012 Daniel Craik Added backwards compatibility for Pythia 6 commands in the XML configuration. Updated decay file conversion tool to convert JetSetPar lines to pythia6Param tags. 19th March 2012 Daniel Craik Added infrastructure to pass commands to external generators. XML config now takes Pythia8 configuration commands. 16th March 2012 Daniel Craik Added the ability to define particles from the PDL for Dalitz decay resonances instead of defining mass, width and spin seperately. Renamed the lifetime attribute of Dalitz decay resonaces to width to avoid confusion. Added further validation code for the generic Dalitz model. 15th March 2012 Daniel Craik Added validation code for xml decay files and the generic Dalitz model. R01-00-00 ------------------------------------------------------------------ 6th March 2012 John Back First official version for Genser (evtgen 1.0.0) that includes support for external generators: Pythia8, Photos++ and Tauola++. This also includes a preliminary version of creating Dalitz plot decay models using EvtGenericDalitz. diff --git a/src/EvtGenModels/EvtBToDiBaryonlnupQCD.cpp b/src/EvtGenModels/EvtBToDiBaryonlnupQCD.cpp new file mode 100644 index 0000000..174516e --- /dev/null +++ b/src/EvtGenModels/EvtBToDiBaryonlnupQCD.cpp @@ -0,0 +1,253 @@ + + +// +// Environment: +// This software is part of the EvtGen package developed jointly +// for the BaBar and CLEO collaborations. If you use all or part +// of it, please give an appropriate acknowledgement. +// +// Copyright Information: +// Copyright (C) 1998 Caltech, UCSB +// +// Module: EvtBToDiBaryonlnupQCD.cc +// +// Description: Routine to implement B -> Baryon Anti-baryon l nu decays. +// The form factors are from arXiv.1107.0801 (2011) +// +// +// Modification history: +// +// Mark Smith 17/07/2017 Module created +// Ryan Newcombe May 2018 Additional baryons and +// Rarita-Schwinger-type particles +// John B Oct 2018 Optimisations +// +//------------------------------------------------------------------------ + +#include "EvtGenBase/EvtPatches.hh" + +#include "EvtGenBase/EvtParticle.hh" +#include "EvtGenBase/EvtPDL.hh" +#include "EvtGenBase/EvtSpinType.hh" +#include "EvtGenBase/EvtReport.hh" +#include "EvtGenBase/EvtId.hh" +#include "EvtGenBase/EvtIdSet.hh" +#include "EvtGenBase/EvtScalarParticle.hh" +#include "EvtGenBase/EvtVector4R.hh" + +#include "EvtGenModels/EvtBToDiBaryonlnupQCD.hh" +#include "EvtGenModels/EvtBToDiBaryonlnupQCDFF.hh" +#include "EvtGenModels/EvtSLDiBaryonAmp.hh" + +using std::endl; + +EvtBToDiBaryonlnupQCD::EvtBToDiBaryonlnupQCD() : + ffModel(0), + calcAmp(0) +{ +} + +EvtBToDiBaryonlnupQCD::~EvtBToDiBaryonlnupQCD() { + delete ffModel; + ffModel = 0; + delete calcAmp; + calcAmp = 0; +} + +std::string EvtBToDiBaryonlnupQCD::getName() { + + return "BToDiBaryonlnupQCD"; + +} + +EvtDecayBase* EvtBToDiBaryonlnupQCD::clone() { + + return new EvtBToDiBaryonlnupQCD; + +} + +void EvtBToDiBaryonlnupQCD::decay(EvtParticle *p) { + + p->initializePhaseSpace(getNDaug(), getDaugs(), true); + + calcAmp->CalcAmp(p, _amp2); + +} + +void EvtBToDiBaryonlnupQCD::init() { + + if ( !(getNArg() == 6 || getNArg() == 7) ) { + + EvtGenReport(EVTGEN_ERROR,"EvtGen") << "EvtBToDiBaryonlnupQCD model expected " + << " 6 or 7 arguments but found:" << getNArg() << endl; + EvtGenReport(EVTGEN_ERROR,"EvtGen") << "Will terminate execution!" << endl; + ::abort(); + + } + + if (getNDaug() != 4) { + + EvtGenReport(EVTGEN_ERROR,"EvtGen") + << "Wrong number of daughters in EvtBToDiBaryonlnupQCD model: " + << "4 daughters expected but found: " << getNDaug() << endl; + EvtGenReport(EVTGEN_ERROR,"EvtGen") << "Will terminate execution!" << endl; + ::abort(); + } + + + // We expect B -> baryon baryon lepton neutrino + EvtSpinType::spintype parentType = EvtPDL::getSpinType(getParentId()); + EvtSpinType::spintype leptonType = EvtPDL::getSpinType(getDaug(2)); + EvtSpinType::spintype neutrinoType = EvtPDL::getSpinType(getDaug(3)); + + if (parentType != EvtSpinType::SCALAR) { + + EvtGenReport(EVTGEN_ERROR,"EvtGen") << "EvtBToDiBaryonlnupQCD model expected " + << " a SCALAR parent, found:" + << EvtPDL::name(getParentId()) << endl; + EvtGenReport(EVTGEN_ERROR,"EvtGen") << "Will terminate execution!" << endl; + ::abort(); + } + + if (leptonType != EvtSpinType::DIRAC) { + + EvtGenReport(EVTGEN_ERROR,"EvtGen") << "EvtBToDiBaryonlnupQCD model expected " + << " a DIRAC 3rd daughter, found:" + << EvtPDL::name(getDaug(2)) << endl; + EvtGenReport(EVTGEN_ERROR,"EvtGen") << "Will terminate execution!" << endl; + ::abort(); + } + + if (neutrinoType != EvtSpinType::NEUTRINO) { + + EvtGenReport(EVTGEN_ERROR,"EvtGen") << "EvtBToDiBaryonlnupQCD model expected " + << " a NEUTRINO 4th daughter, found:" + << EvtPDL::name(getDaug(3)) << endl; + EvtGenReport(EVTGEN_ERROR,"EvtGen") << "Will terminate execution!" << endl; + ::abort(); + } + + // Get the 6 form factor D parameters from model arguments in the decay file + std::vector DPars(6); + for (int i = 0; i < 6; i++) { + DPars[i] = getArg(i); + } + + // Form factor model + ffModel = new EvtBToDiBaryonlnupQCDFF(DPars); + + // Set amplitude calculation pointer. + // Accomodate for spin 1/2 (DIRAC) or 3/2 (RARITASCHWINGER) baryons + EvtSpinType::spintype baryon1Type = EvtPDL::getSpinType(getDaug(0)); + EvtSpinType::spintype baryon2Type = EvtPDL::getSpinType(getDaug(1)); + + if ( (baryon1Type == EvtSpinType::DIRAC && baryon2Type == EvtSpinType::RARITASCHWINGER) || + (baryon1Type == EvtSpinType::RARITASCHWINGER && baryon2Type == EvtSpinType::DIRAC) || + (baryon1Type == EvtSpinType::DIRAC && baryon2Type == EvtSpinType::DIRAC) ) { + + calcAmp = new EvtSLDiBaryonAmp(ffModel); + + } else { + + EvtGenReport(EVTGEN_ERROR,"EvtGen") + << "Wrong baryon spin type in EvtBToDiBaryonlnupQCD model. " + << "Expected spin type " << EvtSpinType::DIRAC + << " or " << EvtSpinType::RARITASCHWINGER + << ", found spin types " << baryon1Type << " and " << baryon2Type << endl; + EvtGenReport(EVTGEN_ERROR,"EvtGen") << "Will terminate execution!" << endl; + ::abort(); + } + +} + +void EvtBToDiBaryonlnupQCD::initProbMax() { + + // Set maximum prob using dec file parameter if present + if (getNArg() == 7) { + + setProbMax(getArg(6)); + + } else { + + // Default probability for the B -> p p l nu mode, where l = e, mu or tau + setProbMax(3.0e6); + + // Specific decay modes, where we have one proton plus a second + // baryon that can be any (excited) state. They all have lower + // maximum probabilities compared to the default pp mode in order + // to improve accept/reject generation efficiency + static EvtIdSet BMesons("B-", "B+"); + static EvtIdSet Delta("Delta+", "anti-Delta-"); + static EvtIdSet LambdaC("Lambda_c+", "anti-Lambda_c-"); + static EvtIdSet LambdaC1("Lambda_c(2593)+", "anti-Lambda_c(2593)-"); + static EvtIdSet LambdaC2("Lambda_c(2625)+", "anti-Lambda_c(2625)-"); + static EvtIdSet N1440("N(1440)+", "anti-N(1440)-"); + static EvtIdSet N1520("N(1520)+", "anti-N(1520)-"); + static EvtIdSet N1535("N(1535)+", "anti-N(1535)-"); + static EvtIdSet N1650("N(1650)+", "anti-N(1650)-"); + static EvtIdSet N1700("N(1700)+", "anti-N(1700)-"); + static EvtIdSet N1710("N(1710)+", "anti-N(1710)-"); + static EvtIdSet N1720("N(1720)+", "anti-N(1720)-"); + + EvtId parId = getParentId(); + EvtId bar1Id = getDaug(0); + EvtId bar2Id = getDaug(1); + + // These probabilties are sensitive to the sub-decay modes of the excited baryon states, + // which limit the available phase space and allows for events to be generated within the + // 10,000 event trial limit. Otherwise the amplitude varies too much (by more than a factor + // of a million) and events fail to be generated correctly. In case of problems, specify + // the maximum probability by passing an extra 7th model parameter + if (BMesons.contains(parId)) { + + if (Delta.contains(bar1Id) || Delta.contains(bar2Id)) { + // Delta + setProbMax(2.2e6); + + } else if (LambdaC.contains(bar1Id) || LambdaC.contains(bar2Id)) { + // Lambda_c+ + setProbMax(1000.0); + + } else if (LambdaC1.contains(bar1Id) || LambdaC1.contains(bar2Id)) { + // Lambda_c+(2593) + setProbMax(200.0); + + } else if (LambdaC2.contains(bar1Id) || LambdaC2.contains(bar2Id)) { + // Lambda_c+(2625) + setProbMax(500.0); + + } else if (N1440.contains(bar1Id) || N1440.contains(bar2Id)) { + // N(1440) + setProbMax(1.25e6); + + } else if (N1520.contains(bar1Id) || N1520.contains(bar2Id)) { + // N(1520) + setProbMax(1.25e6); + + } else if (N1535.contains(bar1Id) || N1535.contains(bar2Id)) { + // N(1535) + setProbMax(1.25e6); + + } else if (N1650.contains(bar1Id) || N1650.contains(bar2Id)) { + // N(1650) + setProbMax(1.25e6); + + } else if (N1700.contains(bar1Id) || N1700.contains(bar2Id)) { + // N(1700) + setProbMax(1.25e6); + + } else if (N1710.contains(bar1Id) || N1710.contains(bar2Id)) { + // N(1710) + setProbMax(1.25e6); + + } else if (N1720.contains(bar1Id) || N1720.contains(bar2Id)) { + // N(1720) + setProbMax(1.25e6); + + } // Baryon combinations + + } // B parent + + } // Specific modes + +} diff --git a/src/EvtGenModels/EvtBToDiBaryonlnupQCDFF.cpp b/src/EvtGenModels/EvtBToDiBaryonlnupQCDFF.cpp new file mode 100644 index 0000000..2e73c5e --- /dev/null +++ b/src/EvtGenModels/EvtBToDiBaryonlnupQCDFF.cpp @@ -0,0 +1,89 @@ +//-------------------------------------------------------------------------- +// +// Environment: +// This software is part of the EvtGen package developed jointly +// for the BaBar and CLEO collaborations. If you use all or part +// of it, please give an appropriate acknowledgement. +// +// Copyright Information: +// Copyright (C) 1998 Caltech, UCSB +// +// Module: EvtBTopplnupQCDFF.cc +// +// Description: Routine to implement form factor calculation for +// B->Baryon Anti-baryon l nu from pQCD counting rules. +// Taken from arXiv:1107.0801 +// +// +// Modification history: +// +// Mark Smith 17/07/2017 Module created +// Ryan Newcombe May 2018 Added function to get form factors for +// Rarita-Schwinger daughters +// John B Oct 2018 Simplified code +// +//-------------------------------------------------------------------------- + +#include "EvtGenBase/EvtPatches.hh" +#include "EvtGenBase/EvtParticle.hh" +#include "EvtGenModels/EvtBToDiBaryonlnupQCDFF.hh" + +EvtBToDiBaryonlnupQCDFF::EvtBToDiBaryonlnupQCDFF() : + DPars(), + nDPars(0) +{ +} + +EvtBToDiBaryonlnupQCDFF::EvtBToDiBaryonlnupQCDFF(std::vector& DParameters): + DPars(DParameters), + nDPars(DParameters.size()) +{ +} + +void EvtBToDiBaryonlnupQCDFF::getFF(EvtParticle*, double dibaryonMass, + EvtBToDiBaryonlnupQCDFF::FormFactors& FF) +{ + + if (nDPars == 6 && dibaryonMass > 0.0) { + + // 5/3*[1/M^2]^3 + double t = 5.0/(3.0*pow(dibaryonMass, 6.0)); + + double Dp = DPars[0]; + double Dpb = DPars[1]; + double D2 = DPars[2]; + double D3 = DPars[3]; + double D4 = DPars[4]; + double D5 = DPars[5]; + + FF.F1 = (Dp + 0.2*Dpb)*t; + FF.F2 = -D2*t; + FF.F3 = -D3*t; + FF.F4 = -D4*t; + FF.F5 = -D5*t; + + FF.G1 = (Dp - 0.2*Dpb)*t; + FF.G2 = -FF.F2; + FF.G3 = -FF.F3; + FF.G4 = -FF.F4; + FF.G5 = -FF.F5; + + } + +} + +void EvtBToDiBaryonlnupQCDFF::getDiracFF(EvtParticle* parent, double dibaryonMass, + EvtBToDiBaryonlnupQCDFF::FormFactors &FF) +{ + + this->getFF(parent, dibaryonMass, FF); + +} + +void EvtBToDiBaryonlnupQCDFF::getRaritaFF(EvtParticle* parent, double dibaryonMass, + EvtBToDiBaryonlnupQCDFF::FormFactors &FF) +{ + + this->getFF(parent, dibaryonMass, FF); + +} diff --git a/src/EvtGenModels/EvtModelReg.cpp b/src/EvtGenModels/EvtModelReg.cpp index cfce13e..95535d5 100644 --- a/src/EvtGenModels/EvtModelReg.cpp +++ b/src/EvtGenModels/EvtModelReg.cpp @@ -1,349 +1,353 @@ //-------------------------------------------------------------------------- // // Environment: // This software is part of the EvtGen package developed jointly // for the BaBar and CLEO collaborations. If you use all or part // of it, please give an appropriate acknowledgement. // // Copyright Information: See EvtGen/COPYRIGHT // Copyright (C) 1998 Caltech, UCSB // // Module: EvtModel.cc // // Description: // // Modification history: // // RYD September 25, 1996 Module created // //------------------------------------------------------------------------ // #include "EvtGenBase/EvtPatches.hh" #include #include #include #include #include #include #include "EvtGenBase/EvtModel.hh" #include "EvtGenModels/EvtTauVectornu.hh" #include "EvtGenModels/EvtVVP.hh" #include "EvtGenModels/EvtSLN.hh" #include "EvtGenModels/EvtISGW2.hh" #include "EvtGenModels/EvtMelikhov.hh" #include "EvtGenModels/EvtSLPole.hh" #include "EvtGenModels/EvtPropSLPole.hh" #include "EvtGenModels/EvtSLBKPole.hh" #include "EvtGenModels/EvtISGW.hh" #include "EvtGenModels/EvtBHadronic.hh" #include "EvtGenModels/EvtVSS.hh" #include "EvtGenModels/EvtVSSMix.hh" #include "EvtGenModels/EvtVSSBMixCPT.hh" #include "EvtGenModels/EvtVSPPwave.hh" #include "EvtGenModels/EvtGoityRoberts.hh" #include "EvtGenModels/EvtSVS.hh" #include "EvtGenModels/EvtTSS.hh" #include "EvtGenModels/EvtTVSPwave.hh" #include "EvtGenModels/EvtSVVHelAmp.hh" #include "EvtGenModels/EvtSVPHelAmp.hh" #include "EvtGenModels/EvtSVPCP.hh" #include "EvtGenModels/EvtVVSPwave.hh" #include "EvtGenModels/EvtDDalitz.hh" #include "EvtGenModels/EvtOmegaDalitz.hh" #include "EvtGenModels/EvtPi0Dalitz.hh" #include "EvtGenModels/EvtEtaDalitz.hh" #include "EvtGenModels/EvtPhsp.hh" #include "EvtGenModels/EvtBtoXsgamma.hh" #include "EvtGenModels/EvtBtoXsll.hh" #include "EvtGenModels/EvtBtoXsEtap.hh" #include "EvtGenModels/EvtSSSCP.hh" #include "EvtGenModels/EvtSSSCPpng.hh" #include "EvtGenModels/EvtSTSCP.hh" #include "EvtGenModels/EvtSTS.hh" #include "EvtGenModels/EvtSSSCPT.hh" #include "EvtGenModels/EvtSVSCP.hh" #include "EvtGenModels/EvtSSDCP.hh" #include "EvtGenModels/EvtSVSNONCPEIGEN.hh" #include "EvtGenModels/EvtSVVNONCPEIGEN.hh" #include "EvtGenModels/EvtSVVCP.hh" #include "EvtGenModels/EvtSVVCPLH.hh" #include "EvtGenModels/EvtSVSCPLH.hh" #include "EvtGenModels/EvtSll.hh" #include "EvtGenModels/EvtVll.hh" #include "EvtGenModels/EvtTaulnunu.hh" #include "EvtGenModels/EvtTauHadnu.hh" #include "EvtGenModels/EvtTauScalarnu.hh" #include "EvtGenModels/EvtKstarnunu.hh" #include "EvtGenModels/EvtbTosllBall.hh" #include "EvtGenModels/EvtSingleParticle.hh" #include "EvtGenModels/EvtVectorIsr.hh" #include "EvtGenModels/EvtBToPlnuBK.hh" #include "EvtGenModels/EvtBToVlnuBall.hh" #include "EvtGenModels/EvtSVVHelCPMix.hh" #include "EvtGenModels/EvtSVPHelCPMix.hh" #include "EvtGenModels/EvtLb2Lll.hh" #include "EvtGenModels/EvtRareLbToLll.hh" #include "EvtGenModels/EvtHypNonLepton.hh" #include "EvtGenModels/EvtbTosllAli.hh" #include "EvtGenModels/EvtBToDDalitzCPK.hh" #include "EvtGenModels/EvtPVVCPLH.hh" #include "EvtGenModels/EvtLambdaB2LambdaV.hh" #include "EvtGenModels/EvtSSD_DirectCP.hh" #include "EvtGenModels/EvtHQET.hh" #include "EvtGenModels/EvtHQET2.hh" #include "EvtGenBase/EvtParticle.hh" #include "EvtGenBase/EvtPDL.hh" #include "EvtGenModels/EvtHelAmp.hh" #include "EvtGenModels/EvtPartWave.hh" #include "EvtGenModels/EvtBto2piCPiso.hh" #include "EvtGenModels/EvtBtoKpiCPiso.hh" #include "EvtGenModels/EvtSVSCPiso.hh" #include "EvtGenModels/EvtVVpipi.hh" #include "EvtGenModels/EvtY3SToY1SpipiMoxhay.hh" #include "EvtGenModels/EvtYmSToYnSpipiCLEO.hh" #include "EvtGenModels/EvtVVPIPI_WEIGHTED.hh" #include "EvtGenModels/EvtVPHOtoVISRHi.hh" #include "EvtGenModels/EvtBTo4piCP.hh" #include "EvtGenModels/EvtBTo3piCP.hh" #include "EvtGenModels/EvtCBTo3piP00.hh" #include "EvtGenModels/EvtCBTo3piMPP.hh" #include "EvtGenModels/EvtBToKpipiCP.hh" #include "EvtGenModels/EvtBsquark.hh" #include "EvtGenModels/EvtPhiDalitz.hh" #include "EvtGenModels/EvtLNuGamma.hh" #include "EvtGenModels/EvtVub.hh" #include "EvtGenModels/EvtVubHybrid.hh" #include "EvtGenModels/EvtVubNLO.hh" #include "EvtGenModels/EvtVubBLNP.hh" #include "EvtGenModels/EvtVubBLNPHybrid.hh" #include "EvtGenModels/EvtPto3P.hh" #include "EvtGenModels/EvtBtoKD3P.hh" #include "EvtGenModels/EvtKstarstargamma.hh" #include "EvtGenModels/EvtFlatQ2.hh" #include "EvtGenModels/EvtLambdaP_BarGamma.hh" #include "EvtGenModels/EvtBBScalar.hh" #include "EvtGenModels/EvtKKLambdaC.hh" #include "EvtGenModels/EvtMultibody.hh" #include "EvtGenModels/EvtBaryonPCR.hh" #include "EvtGenModels/EvtDMix.hh" #include "EvtGenModels/EvtD0mixDalitz.hh" #include "EvtGenModels/EvtD0gammaDalitz.hh" #include "EvtGenModels/EvtEta2MuMuGamma.hh" #include "EvtGenModels/EvtBcToNPi.hh" #include "EvtGenModels/EvtBcPsiNPi.hh" #include "EvtGenModels/EvtBcBsNPi.hh" #include "EvtGenModels/EvtBcBsStarNPi.hh" #include "EvtGenModels/EvtBcSMuNu.hh" #include "EvtGenModels/EvtBcVMuNu.hh" #include "EvtGenModels/EvtBcTMuNu.hh" #include "EvtGenModels/EvtBcVNpi.hh" #include "EvtGenModels/EvtSVP.hh" #include "EvtGenModels/EvtTVP.hh" #include "EvtGenModels/EvtXPsiGamma.hh" #include "EvtGenModels/EvtbsToLLLL.hh" #include "EvtGenModels/EvtbsToLLLLHyperCP.hh" #include "EvtGenModels/EvtB2MuMuMuNu.hh" #include "EvtGenModels/EvtKStopizmumu.hh" #include "EvtGenModels/EvtVtoSll.hh" #include "EvtGenModels/EvtGenericDalitz.hh" #include "EvtGenModels/EvtBcVHad.hh" #include "EvtGenModels/Evtbs2llGammaMNT.hh" #include "EvtGenModels/Evtbs2llGammaISRFSR.hh" #include "EvtGenModels/EvtbTosllMS.hh" #include "EvtGenModels/EvtbTosllMSExt.hh" #include "EvtGenModels/EvtbsToLLLL.hh" #include "EvtGenModels/EvtbsToLLLLHyperCP.hh" #include "EvtGenModels/EvtLb2plnuLCSR.hh" #include "EvtGenModels/EvtLb2plnuLQCD.hh" #include "EvtGenModels/EvtLb2Baryonlnu.hh" +#include "EvtGenModels/EvtBToDiBaryonlnupQCD.hh" + #include "EvtGenModels/EvtFlatSqDalitz.hh" #include "EvtGenModels/EvtPhspFlatLifetime.hh" #include "EvtGenModels/EvtModelReg.hh" using std::fstream; using std::cout; using std::endl; EvtModelReg::EvtModelReg(const std::list* extraModels) { EvtModel &modelist=EvtModel::instance(); if(extraModels){ for(std::list::const_iterator it = extraModels->begin(); it != extraModels->end(); ++it){ modelist.registerModel(*it); } } modelist.registerModel(new EvtBBScalar); modelist.registerModel(new EvtLambdaP_BarGamma); modelist.registerModel(new EvtFlatQ2); modelist.registerModel(new EvtTauHadnu); modelist.registerModel(new EvtTauVectornu); modelist.registerModel(new EvtVVP); modelist.registerModel(new EvtSLN); modelist.registerModel(new EvtISGW2); modelist.registerModel(new EvtMelikhov); modelist.registerModel(new EvtSLPole); modelist.registerModel(new EvtPropSLPole); modelist.registerModel(new EvtSLBKPole); modelist.registerModel(new EvtHQET); modelist.registerModel(new EvtHQET2); modelist.registerModel(new EvtISGW); modelist.registerModel(new EvtBHadronic); modelist.registerModel(new EvtVSS); modelist.registerModel(new EvtVSSMix); modelist.registerModel(new EvtVSSBMixCPT); modelist.registerModel(new EvtVSPPwave); modelist.registerModel(new EvtGoityRoberts); modelist.registerModel(new EvtSVS); modelist.registerModel(new EvtTSS); modelist.registerModel(new EvtTVSPwave); modelist.registerModel(new EvtSVVHelAmp); modelist.registerModel(new EvtSVPHelAmp); modelist.registerModel(new EvtSVPCP); modelist.registerModel(new EvtVVSPwave); modelist.registerModel(new EvtDDalitz); modelist.registerModel(new EvtOmegaDalitz); modelist.registerModel(new EvtEtaDalitz); modelist.registerModel(new EvtPhsp); modelist.registerModel(new EvtBtoXsgamma); modelist.registerModel(new EvtBtoXsll); modelist.registerModel(new EvtBtoXsEtap); modelist.registerModel(new EvtSSSCP); modelist.registerModel(new EvtSSSCPpng); modelist.registerModel(new EvtSTSCP); modelist.registerModel(new EvtSTS); modelist.registerModel(new EvtSSSCPT); modelist.registerModel(new EvtSVSCP); modelist.registerModel(new EvtSSDCP); modelist.registerModel(new EvtSVSNONCPEIGEN); modelist.registerModel(new EvtSVVNONCPEIGEN); modelist.registerModel(new EvtSVVCP); modelist.registerModel(new EvtSVVCPLH); modelist.registerModel(new EvtSVSCPLH); modelist.registerModel(new EvtSll); modelist.registerModel(new EvtVll); modelist.registerModel(new EvtTaulnunu); modelist.registerModel(new EvtTauScalarnu); modelist.registerModel(new EvtKstarnunu); modelist.registerModel(new EvtbTosllBall); modelist.registerModel(new EvtBto2piCPiso); modelist.registerModel(new EvtBtoKpiCPiso); modelist.registerModel(new EvtSVSCPiso); modelist.registerModel(new EvtSingleParticle); modelist.registerModel(new EvtVectorIsr); modelist.registerModel(new EvtPi0Dalitz); modelist.registerModel(new EvtHelAmp); modelist.registerModel(new EvtPartWave); modelist.registerModel(new EvtVVpipi); modelist.registerModel(new EvtY3SToY1SpipiMoxhay); modelist.registerModel(new EvtYmSToYnSpipiCLEO); modelist.registerModel(new EvtBsquark); modelist.registerModel(new EvtPhiDalitz); modelist.registerModel(new EvtBToPlnuBK); modelist.registerModel(new EvtBToVlnuBall); modelist.registerModel(new EvtVVPIPI_WEIGHTED); modelist.registerModel(new EvtVPHOtoVISRHi); modelist.registerModel(new EvtBTo4piCP); modelist.registerModel(new EvtBTo3piCP); modelist.registerModel(new EvtCBTo3piP00); modelist.registerModel(new EvtCBTo3piMPP); modelist.registerModel(new EvtBToKpipiCP); modelist.registerModel(new EvtLb2Lll); modelist.registerModel(new EvtRareLbToLll); modelist.registerModel(new EvtHypNonLepton); modelist.registerModel(new EvtSVVHelCPMix); modelist.registerModel(new EvtSVPHelCPMix); modelist.registerModel(new EvtLNuGamma); modelist.registerModel(new EvtKstarstargamma); modelist.registerModel(new EvtVub); modelist.registerModel(new EvtVubHybrid); modelist.registerModel(new EvtVubNLO); modelist.registerModel(new EvtVubBLNP); modelist.registerModel(new EvtVubBLNPHybrid); modelist.registerModel(new EvtPto3P); modelist.registerModel(new EvtBtoKD3P); modelist.registerModel(new EvtKKLambdaC); modelist.registerModel(new EvtMultibody); modelist.registerModel(new EvtDMix); modelist.registerModel(new EvtD0mixDalitz); modelist.registerModel(new EvtD0gammaDalitz); modelist.registerModel(new EvtEta2MuMuGamma); modelist.registerModel(new EvtbTosllAli); modelist.registerModel(new EvtBaryonPCR); modelist.registerModel(new EvtBToDDalitzCPK); modelist.registerModel(new EvtLambdaB2LambdaV); modelist.registerModel(new EvtLambda2PPiForLambdaB2LambdaV); modelist.registerModel(new EvtV2VpVmForLambdaB2LambdaV); modelist.registerModel(new EvtPVVCPLH); modelist.registerModel(new EvtSSD_DirectCP); modelist.registerModel(new EvtBcToNPi(true)); // true = print author info modelist.registerModel(new EvtBcPsiNPi); modelist.registerModel(new EvtBcBsNPi); modelist.registerModel(new EvtBcBsStarNPi); modelist.registerModel(new EvtBcSMuNu); modelist.registerModel(new EvtBcVMuNu); modelist.registerModel(new EvtBcTMuNu); modelist.registerModel(new EvtBcVNpi); modelist.registerModel(new EvtSVP); modelist.registerModel(new EvtTVP); modelist.registerModel(new EvtXPsiGamma); modelist.registerModel(new EvtbsToLLLL); modelist.registerModel(new EvtbsToLLLLHyperCP); modelist.registerModel(new EvtB2MuMuMuNu); modelist.registerModel(new EvtKStopizmumu); modelist.registerModel(new EvtVtoSll); modelist.registerModel(new EvtGenericDalitz()); modelist.registerModel(new EvtBcVHad); modelist.registerModel(new Evtbs2llGammaMNT); modelist.registerModel(new Evtbs2llGammaISRFSR); modelist.registerModel(new EvtbTosllMS); modelist.registerModel(new EvtbTosllMSExt); modelist.registerModel(new EvtLb2plnuLQCD); modelist.registerModel(new EvtLb2plnuLCSR); modelist.registerModel(new EvtLb2Baryonlnu); + modelist.registerModel(new EvtBToDiBaryonlnupQCD); + modelist.registerModel(new EvtFlatSqDalitz); modelist.registerModel(new EvtPhspFlatLifetime); } diff --git a/src/EvtGenModels/EvtSLDiBaryonAmp.cpp b/src/EvtGenModels/EvtSLDiBaryonAmp.cpp new file mode 100644 index 0000000..5154ddf --- /dev/null +++ b/src/EvtGenModels/EvtSLDiBaryonAmp.cpp @@ -0,0 +1,305 @@ +//-------------------------------------------------------------------------- +// +// Environment: +// This software is part of the EvtGen package developed jointly +// for the BaBar and CLEO collaborations. If you use all or part +// of it, please give an appropriate acknowledgement. +// +// Copyright Information: See EvtGen/COPYRIGHT +// Copyright (C) 1998 Caltech, UCSB +// +// Module: EvtSLDiBaryonAmp.cc +// +// Description: Routine to implement semileptonic decays to dibaryonic final +// state. Details of amplitude calculation to be found in arXiv:1107.0801. +// +// Modification history: +// +// Mark Smith July 18, 2017 Module created +// Heavily adapted from the EvtSLBaryonAmp module +// Ryan Newcombe May 2018 Added capability for Rarita-Schwinger +// daughters. Indexing convention follows EvtSLBaryonAmp +// John B Oct 2018 Optimise amplitude calculation +// +//-------------------------------------------------------------------------- + +#include "EvtGenBase/EvtPatches.hh" + +#include "EvtGenBase/EvtDiracSpinor.hh" +#include "EvtGenBase/EvtGammaMatrix.hh" +#include "EvtGenBase/EvtId.hh" +#include "EvtGenBase/EvtParticle.hh" +#include "EvtGenBase/EvtPDL.hh" +#include "EvtGenBase/EvtRaritaSchwinger.hh" +#include "EvtGenBase/EvtReport.hh" +#include "EvtGenBase/EvtVector4C.hh" +#include "EvtGenBase/EvtVector4R.hh" + +#include "EvtGenModels/EvtBToDiBaryonlnupQCDFF.hh" +#include "EvtGenModels/EvtSLDiBaryonAmp.hh" + +using std::endl; + +EvtSLDiBaryonAmp::EvtSLDiBaryonAmp(EvtBToDiBaryonlnupQCDFF* formFactors) : + ffModel(formFactors) +{ +} + +void EvtSLDiBaryonAmp::CalcAmp(EvtParticle *parent, EvtAmp& amp) const { + + static EvtId EM = EvtPDL::getId("e-"); + static EvtId MUM = EvtPDL::getId("mu-"); + static EvtId TAUM = EvtPDL::getId("tau-"); + static EvtId EP = EvtPDL::getId("e+"); + static EvtId MUP = EvtPDL::getId("mu+"); + static EvtId TAUP = EvtPDL::getId("tau+"); + + // The baryon, charged lepton and neutrino daughters + EvtParticle* baryon1 = parent->getDaug(0); + EvtParticle* baryon2 = parent->getDaug(1); + EvtParticle* lepton = parent->getDaug(2); + EvtParticle* neutrino = parent->getDaug(3); + + // 4-momenta + EvtVector4R p1 = baryon1->getP4(); + EvtVector4R p2 = baryon2->getP4(); + + EvtVector4R pSum = p1 + p2; + EvtVector4R p = parent->getP4() - pSum; + EvtVector4R pDiff = p2 - p1; + + // Particle id's + EvtId Id1 = baryon1->getId(); + EvtId Id2 = baryon2->getId(); + EvtId l_num = lepton->getId(); + + EvtSpinType::spintype type1 = EvtPDL::getSpinType(Id1); + EvtSpinType::spintype type2 = EvtPDL::getSpinType(Id2); + + // Number of chiral components of the baryon spinors + int N1 = EvtSpinType::getSpinStates(type1); + int N2 = EvtSpinType::getSpinStates(type2); + + // Invariant mass of the two baryon particle system + double m_dibaryon = sqrt(pSum.mass2()); + + // Complex number i + EvtComplex I(0, 1); + + // Lepton currents, same for all baryon options + EvtVector4C l1, l2; + + if (l_num == EM || l_num == MUM || l_num == TAUM) { + + l1 = EvtLeptonVACurrent(lepton->spParent(0), neutrino->spParentNeutrino()); + + l2 = EvtLeptonVACurrent(lepton->spParent(1), neutrino->spParentNeutrino()); + + } else if (l_num == EP || l_num == MUP || l_num == TAUP) { + + l1 = EvtLeptonVACurrent(neutrino->spParentNeutrino(), lepton->spParent(0)); + + l2 = EvtLeptonVACurrent(neutrino->spParentNeutrino(), lepton->spParent(1)); + + } else { + + EvtGenReport(EVTGEN_ERROR,"EvtSLDiBaryonAmp") << "Wrong lepton number"< sigmaVect; + for (int k = 0; k < 4; k++) { + + EvtGammaMatrix sigmaSum; + for (int index = 0; index < 4; index++) { + sigmaSum += EvtGammaMatrix::sigmaLower(k, index)*p.get(index); + } + + sigmaVect.push_back(sigmaSum); + + } + + // Vector and axial-vector terms; these get reset within the loop over k + EvtVector4C term1; + EvtVector4C term2; + + // Handle case of two Dirac-type daughters, e.g. ppbar, pN(1440) + if (type1 == EvtSpinType::DIRAC && type2 == EvtSpinType::DIRAC) { + + // Form factor parameters + EvtBToDiBaryonlnupQCDFF::FormFactors FF; + ffModel->getDiracFF(parent, m_dibaryon, FF); + + // First baryon + for (int i = 0; i < N1; i++) { + + // Get the baryon spinor in the B rest frame. Also just use u and not i*u, + // since the imaginary constant factor is not needed for the probability + EvtDiracSpinor u = baryon1->spParent(i); + + // Second baryon + for(int j = 0; j < N2; j++) { + + EvtDiracSpinor v = baryon2->spParent(j); + EvtDiracSpinor g5v = EvtGammaMatrix::g5()*v; + + // Calculate and set the 4 complex amplitude components + for (int k = 0; k < 4; k++) { + + EvtGammaMatrix sigmaSum = sigmaVect[k]; + + // Need two terms owing to the requirements of using the product operators + EvtDiracSpinor vgTermA = (FF.G1*EvtGammaMatrix::g(k) + I*FF.G2*sigmaSum)*g5v; + EvtDiracSpinor vgTermB = (FF.G3*p.get(k) + FF.G4*pSum.get(k) + FF.G5*pDiff.get(k))*g5v; + + // S current = ubar adjoint*vTerms + term1.set(k, EvtLeptonSCurrent(u, vgTermA+vgTermB)); + + EvtDiracSpinor vfTermA = (FF.F1*EvtGammaMatrix::g(k) + I*FF.F2*sigmaSum)*v; + EvtDiracSpinor vfTermB = (FF.F3*p.get(k) + FF.F4*pSum.get(k) + FF.F5*pDiff.get(k))*v; + + // S current = ubar adjoint*vTerms + term2.set(k, EvtLeptonSCurrent(u, vfTermA+vfTermB)); + + } + + // Set the decay amplitude element + EvtVector4C term = term1 - term2; + amp.vertex(i,j,0,l1*term); + amp.vertex(i,j,1,l2*term); + + } // j + + } // i + + } else if ((type1 == EvtSpinType::DIRAC && type2 == EvtSpinType::RARITASCHWINGER) || + (type1 == EvtSpinType::RARITASCHWINGER && type2 == EvtSpinType::DIRAC)) { + + // Handle the case of one Dirac-type daughter (not including the leptons), e.g. one proton, and one + // Rarita-Schwinger-type (spin 3/2) daughter e.g. B -> p N(1520) l nu + + // Form factor parameters + EvtBToDiBaryonlnupQCDFF::FormFactors FF; + ffModel->getRaritaFF(parent, m_dibaryon, FF); + + if (type1 == EvtSpinType::DIRAC) { + + // First baryon is Dirac + for (int i = 0; i < N1; i++) { + + // Get the baryon spinor in the B rest frame. Also just use u and not i*u, + // since the imaginary constant factor is not needed for the probability + EvtDiracSpinor u = baryon1->spParent(i); + + // Second baryon is RS-type + for (int j = 0; j < N2; j++) { + + EvtRaritaSchwinger vRS = baryon2->spRSParent(j); + + // Store products of g5 with the spinor components as well as + // EvtDiracSpinors to limit constructor calls inside k loop + std::vector g5vVect, vVect; + for (int index = 0; index < 4; index++) { + + EvtDiracSpinor v = vRS.getSpinor(index); + EvtDiracSpinor g5v = EvtGammaMatrix::g5()*v; + + g5vVect.push_back(g5v); + vVect.push_back(v); + + } + + // Calculate and set the 4 complex amplitude components + for (int k = 0; k < 4; k++) { + + EvtGammaMatrix sigmaSum = sigmaVect[k]; + EvtDiracSpinor g5v = g5vVect[k]; + EvtDiracSpinor v = vVect[k]; + + // Need two terms owing to the requirements of using the product operators + EvtDiracSpinor vgTermA = (FF.G1*EvtGammaMatrix::g(k) + I*FF.G2*sigmaSum)*g5v; + EvtDiracSpinor vgTermB = (FF.G3*p.get(k) + FF.G4*pSum.get(k) + FF.G5*pDiff.get(k))*g5v; + + // S current = ubar adjoint*vTerms + term1.set(k, EvtLeptonSCurrent(u, vgTermA+vgTermB)); + + EvtDiracSpinor vfTermA = (FF.F1*EvtGammaMatrix::g(k) + I*FF.F2*sigmaSum)*v; + EvtDiracSpinor vfTermB = (FF.F3*p.get(k) + FF.F4*pSum.get(k) + FF.F5*pDiff.get(k))*v; + + // S current = ubar adjoint*vTerms + term2.set(k, EvtLeptonSCurrent(u, vfTermA+vfTermB)); + + } + + // Set the decay amplitude element + EvtVector4C term = term1 - term2; + amp.vertex(i,j,0,l1*term); + amp.vertex(i,j,1,l2*term); + + } // j + + } // i + + } else if (type2 == EvtSpinType::DIRAC) { + + // Same as before, but where the first daughter is RS-type, e.g. B -> N(1520) p l nu + + // First baryon is RS + for (int i = 0; i < N1; i++) { + + // Get the baryon spinor in the B rest frame + EvtRaritaSchwinger uRS = baryon1->spRSParent(i); + + // Store EvtDiracSpinors to reduce constructor calls inside k loop + std::vector uVect; + for (int index = 0; index < 4; index++) { + + // Just use u and not i*u, since the imaginary constant factor is not needed + // for the probability + EvtDiracSpinor u = uRS.getSpinor(index); + uVect.push_back(u); + + } + + // Second baryon is Dirac + for (int j = 0; j < N2; j++) { + + EvtDiracSpinor v = baryon2->spParent(j); + EvtDiracSpinor g5v = EvtGammaMatrix::g5()*v; + + // Calculate and set the 4 complex amplitude components + for (int k = 0; k < 4; k++) { + + EvtGammaMatrix sigmaSum = sigmaVect[k]; + EvtDiracSpinor u = uVect[k]; + + // Need two terms owing to the requirements of using the product operators + EvtDiracSpinor vgTermA = (FF.G1*EvtGammaMatrix::g(k) + I*FF.G2*sigmaSum)*g5v; + EvtDiracSpinor vgTermB = (FF.G3*p.get(k) + FF.G4*pSum.get(k) + FF.G5*pDiff.get(k))*g5v; + + // S current = ubar adjoint*vTerms + term1.set(k, EvtLeptonSCurrent(u, vgTermA+vgTermB)); + + EvtDiracSpinor vfTermA = (FF.F1*EvtGammaMatrix::g(k) + I*FF.F2*sigmaSum)*v; + EvtDiracSpinor vfTermB = (FF.F3*p.get(k) + FF.F4*pSum.get(k) + FF.F5*pDiff.get(k))*v; + + // S current = ubar adjoint*vTerms + term2.set(k, EvtLeptonSCurrent(u, vfTermA+vfTermB)); + + } + + // Set the decay amplitude element + EvtVector4C term = term1 - term2; + amp.vertex(i,j,0,l1*term); + amp.vertex(i,j,1,l2*term); + + } // j + + } // i + + } // RS daughter check + + } // Have Dirac and RS baryons + +}