main207
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// main207.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:
// Peter Skands
// Thanks to: M di Mauro
// for the original template for this example
// Keywords:
// Vincia
// Weak showers
// LHEF
// Dark matter
// Example showing how to run Vincia's electroweak shower with LHEF input.
// This requires the LHEF files to contain helicities for the hard partons.
// In this example, the LHEF file contains dark-matter particles annihilating
// to electron-positron pairs.
// Note: emitted weak bosons decay inclusively; it would be up to the user
// themselves to filter events with decays to specific channels if desired.
#include "Pythia8/Pythia.h"
#include "math.h"
#include <iostream>
#include <string>
using namespace std;
using namespace Pythia8;
int main() {
// Generator.
Pythia pythia;
// Read Pythia settings from command file.
pythia.readFile("main207.cmnd");
// Initialization.
pythia.init();
// Allow for possibility of a few faulty events.
int nError = pythia.settings.mode("Main:timesAllowErrors");
double logxMin = -9.;
double logxMax = 0.;
double nBins = 100;
double DeltaBin = (logxMax-logxMin)/nBins;
// Histogram particle spectra.
Hist gamma("gamma spectrum", nBins, logxMin, logxMax);
Hist electron("e+- spectrum", nBins, logxMin, logxMax);
Hist proton("p spectrum", nBins, logxMin, logxMax);
Hist nue("nu_e spectrum", nBins, logxMin, logxMax);
Hist numu("nu_mu spectrum", nBins, logxMin, logxMax);
Hist nutau("nu_tau spectrum", nBins, logxMin, logxMax);
Hist rest("remaining particle spectrum", nBins, logxMin, logxMax);
// Begin event loop.
int nEvent = 0;
int iError = 0;
while (true) {
// Generate the next event.
if (!pythia.next()) {
// If failure because reached end of file then exit event loop.
if (pythia.info.atEndOfFile()) break;
// Otherwise count event failure and continue/exit as necessary.
cout << "Warning: event " << nEvent << " failed" << endl;
if (++iError == nError) {
cout << "Error: too many event failures... exiting" << endl;
break;
}
continue;
}
/*
* Process dependent checks and analysis go here ...
*/
// Add total number of events attempted.
++nEvent;
// Get DM mass.
double mDM = pythia.event[1].m();
// Loop over all particles and select final-state ones for histrograms.
for (int i = 0; i < pythia.event.size(); ++i) {
if ( !pythia.event[i].isFinal() ) continue;
int id = pythia.event[i].id();
int idAbs = pythia.event[i].idAbs();
double e = pythia.event[i].e();
if (e <= 0) continue;
double logx = log10(e/mDM);
// Select photons.
if (idAbs == 22) gamma.fill(logx);
// Select electrons (positron equivalent).
else if (id == -11) electron.fill(logx);
// Select protons.
else if (id == -2212 or idAbs == 2112) proton.fill(logx);
// Select various neutrinos.
else if (id == 12) nue.fill(logx);
else if (id == 14) numu.fill(logx);
else if (id == 16) nutau.fill(logx);
else rest.fill(logx);
}
}
//Statistic and histrograms.
pythia.stat();
gamma.operator*=(1./nEvent/DeltaBin);
electron.operator*=(1./nEvent/DeltaBin);
proton.operator*=(1./nEvent/DeltaBin);
nue.operator*=(1./nEvent/DeltaBin);
numu.operator*=(1./nEvent/DeltaBin);
nutau.operator*=(1./nEvent/DeltaBin);
// Make tables, including statistical errors (last argument = true).
gamma.table("main207-gamma.dat", false, true, true);
electron.table("main207-positron.dat", false, true, true);
proton.table("main207-antiproton.dat", false, true, true);
nue.table("main207-nue.dat", false, true, true);
numu.table("main207-numu.dat", false, true, true);
nutau.table("main207-nutau.dat", false, true, true);
rest.table("main207-rest.dat", false, true, true);
cout << gamma << electron << proton << nue << numu << nutau << rest;
//Done
return 0;
}