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Test_EIC.json
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Test_EIC.json
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// SJDK - 09/02/22 - University of Regina
// !!!!! PLEASE READ THE COMMENTS BELOW !!!!!
// This is a template config file for running DEMPGen for EIC events, consult this file for the availble options
// DO NOT EDIT THIS FILE - It is used by the two shell scripts in this folder to automatically create a new config file with the conditions you want
// Either copy this file to a new name and edit it as you want OR just execute the shell scripts
// !!!!! PLEASE READ THE COMMENTS ABOVE !!!!!
{
// This is an exmaple Json configuration file that will accept
// parameters for both EIC and Solid simulation.
//Config
// All values should use units of MeV for energies and momenta,
// and degrees for angles.
// n_events indicates number of attempts
// "experiment" : "eic" or "solid"
"experiment" : "eic",
"file_name" : "DEMPgen_EIC_test",
"n_events" : 100000,
"generator_seed": 24432,
//**************************************
/// This section if for EIC simulation only
"Kinematics_type" : 1, // Kinematics type (1->FF, 2->TSSA)
"ROOTOut": "true", // Enable or disable root file output, true or false
"ejectile": "Pion+", // Choices: omega, pi+, pi0, K+
"recoil_hadron": "neutron", // Choices: Neutron, proton, Lambda or Sigma0
"ebeam": 5, // Electron beam energy in GeV
"hbeam": 100, // Hadron beam energy in GeV
"hbeam_part":"Proton", // Hadron beam particle, proton, deut or helium3, work in progress, will need to be added to shell script later on as an argument
"OutputType": "HEPMC3", // choices: LUND (Docker), Pythia6 (ECCE Fun4All) or HEPMC3 (ePIC)
"det_location": "ip6", // choices: ip6 for STAR, ip8 for PHENIX
"calc_method": "Analytical", // choices: Analytical or Solve, affects how the ejectile/recoil hadron 4-vectors are calculated. Default is analytical
"Ee_Low": 0.5, // The minimum scattered electron energy that will be generated as a fraction of the electron beam energy
"Ee_High": 2.5, // The maximum scattered electron energy that will be generated as a fraction of the electron beam energy
"e_Theta_Low": 60.0, // The minimum scattered electron angle (theta) that will be generated in degrees
"e_Theta_High": 175.0, // The maximum scattered electron angle (theta) that will be generated in degrees
"EjectileX_Theta_Low": 0.0, // The minimum ejectile angle (theta) that will be generated in degrees
"EjectileX_Theta_High": 100.0, // The maximum ejectile angle (theta) that will be generated in degrees
}