+++ /dev/null
-BEAM_1_Z = 82 #Z of projectile
-BEAM_1_A = 208 #A of projectile
-BEAM_2_Z = 82 #Z of target
-BEAM_2_A = 208 #A of target
-BEAM_GAMMA = 1470 #Gamma of the colliding ions
-W_MAX = 12.0 #Max value of w
-W_MIN = 2.0 #Min value of w
-W_N_BINS = 40 #Bins i w
-RAP_MAX = 8. #max y
-RAP_N_BINS = 80 #Bins i y
-CUT_PT = 0 #Cut in pT? 0 = (no, 1 = yes)
-PT_MIN = 1.0 #Minimum pT in GeV
-PT_MAX = 3.0 #Maximum pT in GeV
-CUT_ETA = 0 #Cut in pseudorapidity? (0 = no, 1 = yes)
-ETA_MIN = -10 #Minimum pseudorapidity
-ETA_MAX = 10 #Maximum pseudorapidity
-PROD_MODE = 5 #gg or gP switch (1 = 2-photon, 2 = coherent vector meson (narrow), 3 = coherent vector meson (wide),
-# 4 = incoherent vector meson, 5 = A+A DPMJet single, 6 = A+A DPMJet double, 7 = p+A DPMJet single, 8 = p+A Pythia single )
-N_EVENTS = 10 #Number of events
-PROD_PID = 443013 #Channel of interest (not relevant for photonuclear processes)
-RND_SEED = 34533 #Random number seed
-OUTPUT_FORMAT = 2 #Form of the output
-BREAKUP_MODE = 5 #Controls the nuclear breakup
-INTERFERENCE = 0 #Interference (0 = off, 1 = on)
-IF_STRENGTH = 1. #% of intefernce (0.0 - 0.1)
-COHERENT = 1 #Coherent=1,Incoherent=0
-INCO_FACTOR = 1. #percentage of incoherence
-BFORD = 9.5
-INT_PT_MAX = 0.24 #Maximum pt considered, when interference is turned on
-INT_PT_N_BINS =120 #Number of pt bins when interference is turned on
-
-# Photonuclear specific options, energies in Lab frame. These values should be within the range of the
-# values specified in the DPMJet input file (when DPMJet is used)
-MIN_GAMMA_ENERGY = 6.0 (for Pythia this need value needs to correspond to a CMS energy of ?)
-MAX_GAMMA_ENERGY = 600000.0