main68
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// main68.cc is a part of the PYTHIA event generator.
// Copyright (C) 2024 Torbjorn Sjostrand.
// PYTHIA is licenced under the GNU GPL v2 or later, see COPYING for details.
// Please respect the MCnet Guidelines, see GUIDELINES for details.
// Authors:
// Christine O Rasmussen
// Keywords:
// Diffraction
// DIS
// Photoproduction
// Jets
// Hard diffraction
// The y, pT, x_Pomeron and t distributions for forward Z bosons at the LHC,
// within the hard diffraction framework for an inclusive event sample.
// Tests the impact of successive requirements.
#include "Pythia8/Pythia.h"
using namespace Pythia8;
int main() {
// Create Pythia instance. Shorthand for event and info.
Pythia pythia;
const Info& info = pythia.info;
// Set it up to generate dijets at HERA.
pythia.readString("Beams:frametype = 2"); // Beams with different energies
pythia.readString("Beams:idA = 2212"); // p+ at 920 GeV
pythia.readString("Beams:eA = 920");
pythia.readString("Beams:idB = -11"); // e+ at 27.5 GeV
pythia.readString("Beams:eB = 27.5");
pythia.readString("PDF:lepton2gamma = on"); // Allow for photon-from lepton
pythia.readString("Photon:ProcessType = 0"); // Allow all photon processes
pythia.readString("Photon:Q2max = 1."); // Maximal Q2
pythia.readString("HardQCD:all = on"); // All dijet MEs
pythia.readString("PhotonParton:all = on"); // All dijet MEs with photons
pythia.readString("PhaseSpace:pThatMin = 4."); // Minimal pT cut
pythia.readString("MultipartonInteractions:pT0Ref = 3."); // Tuned ep value
// Setup of diffractive framework.
pythia.readString("Diffraction:doHard = on");
pythia.readString("Diffraction:sampleType = 1"); // 'PDF' sample
pythia.readString("Diffraction:hardDiffSide = 2"); // Diff. on photon side
pythia.readString("SigmaDiffractive:PomFlux = 7"); // H1 Fit B LO
pythia.readString("PDF:PomSet = 6"); // H1 Fit B LO
// Simplify printout.
pythia.readString("Init:showChangedSettings = off");
pythia.readString("Init:showChangedParticleData = off");
pythia.readString("Init:showMultipartonInteractions = off");
pythia.readString("Next:numberShowInfo = 0");
pythia.readString("Next:numberShowProcess = 0");
pythia.readString("Next:numberShowEvent = 0");
pythia.readString("Next:showScaleAndVertex = off");
// Initialize.
pythia.init();
// Collect information on the number of diffractive events
int maxEvent = 10000;
int nListJets = 5;
int nDiffA = 0;
int nDiffB = 0;
int nReducedDiffA = 0;
int nReducedDiffB = 0;
// Histograms.
Hist nJets0("number of jets, inclusive", 50, -0.5, 9.5);
Hist nJets1("number of jets, after PDF selection", 50, -0.5, 9.5);
Hist nJets2("number of jets, after MPI selection", 50, -0.5, 9.5);
Hist eTjets0("pT for jets, inclusive", 100, 0.0, 50.0);
Hist eTjets1("pT for jets, after PDF selection", 100, 0.0, 50.0);
Hist eTjets2("pT for jets, after MPI selection", 100, 0.0, 50.0);
Hist etaJets0("y for jets, inclusive", 100, -5.0, 5.0);
Hist etaJets1("y for jets, after PDF selection", 100, -5.0, 5.0);
Hist etaJets2("y for jets, after MPI selection", 100, -5.0, 5.0);
Hist phiJets0("phi for jets, inclusive", 100, -M_PI, M_PI);
Hist phiJets1("phi for jets, after PDF selection", 100, -M_PI, M_PI);
Hist phiJets2("phi for jets, after MPI selection", 100, -M_PI, M_PI);
Hist xP1("dN/dxPom after PDF selection", 100, 0.0, 1.0);
Hist xP2("dN/dxPom after MPI selection", 100, 0.0, 1.0);
Hist tP1("dN/dt after PDF selection", 100, -2.0, 0.0);
Hist tP2("dN/dt after MPI selection", 100, -2.0, 0.0);
// Parameters for the jet finder.
double etaMax = 4.;
double radius = 1.0;
double pTjetMin = 3.;
int nSel = 2; // Exclude neutrinos from study.
// Set up SlowJet jet finder, with C/A clustering
// and pion mass assumed for non-photons..
SlowJet slowJet( 0, radius, pTjetMin, etaMax, nSel, 1);
// Begin event loop. Generate event; skip if generation failed.
for (int iEvent = 0; iEvent < maxEvent; ++iEvent) {
if (!pythia.next()) continue;
// Analyze Slowet jet properties. List first few.
slowJet. analyze( pythia.event );
if (iEvent < nListJets) slowJet.list();
// Fill SlowJet inclusive jet distributions.
nJets0.fill( slowJet.sizeJet() );
for (int i = 0; i < slowJet.sizeJet(); ++i) {
eTjets0.fill( slowJet.pT(i) );
etaJets0.fill( slowJet.y(i) );
phiJets0.fill( slowJet.phi(i) );
}
// Find diffractive events. Histogram y and pT.
if ( info.isHardDiffractiveA() == 1 || info.isHardDiffractiveB() == 1) {
nJets1.fill( slowJet.sizeJet() );
for (int i = 1; i < slowJet.sizeJet(); ++i) {
eTjets1.fill( slowJet.pT(i) );
etaJets1.fill( slowJet.y(i) );
phiJets1.fill( slowJet.phi(i) );
}
if (info.nMPI() == 1) {
nJets2.fill( slowJet.sizeJet() );
for (int i = 2; i < slowJet.sizeJet(); ++i) {
eTjets2.fill( slowJet.pT(i) );
etaJets2.fill( slowJet.y(i) );
phiJets2.fill( slowJet.phi(i) );
}
}
// Statistics and histogram on x_Pomeron and t.
if ( info.isHardDiffractiveA() == 1) {
++nDiffA;
xP1.fill( info.xPomeronB() );
tP1.fill( info.tPomeronB() );
if (info.nMPI() == 1) {
++nReducedDiffA;
xP2.fill( info.xPomeronB() );
tP2.fill( info.tPomeronB() );
}
}
else if ( info.isHardDiffractiveB() == 1) {
++nDiffB;
xP1.fill( info.xPomeronA() );
tP1.fill( info.tPomeronA() );
if (info.nMPI() == 1) {
++nReducedDiffB;
xP2.fill( info.xPomeronA() );
tP2.fill( info.tPomeronA() );
}
}
}
// End of event loop. Statistics on event generation.
}
pythia.stat();
// Statistics on diffraction.
cout << "Side A is MPI-unchecked diffractive : " << nDiffA << endl;
cout << "Side A is MPI-checked diffractive : " << nReducedDiffA << endl;
cout << "Side B is MPI-unchecked diffractive : " << nDiffB << endl;
cout << "Side B is MPI-checked diffractive : " << nReducedDiffB << endl;
cout << "Total MPI-unchecked diffractive events : " << fixed
<< setprecision(2) << (nDiffA + nDiffB) / double(maxEvent) * 100.
<< "%" << endl;
cout << "Total MPI-checked diffractive events : "
<< (nReducedDiffA + nReducedDiffB) / double(maxEvent) * 100.
<< "%" << endl;
// Histograms.
cout << xP1 << xP2 << tP1 << tP2
<< nJets0 << nJets1 << nJets2 << eTjets0 << eTjets1 << eTjets2
<< etaJets0 << etaJets1 << etaJets2 << phiJets0 << phiJets1 << phiJets2;
return 0;
}