# set beams RG:Beam1 = PROTON RG:Beam2 = PROTON RG:Mom1 = 3500. RG:Mom2 = 3500. RG:Seed = 0 RG:NumEvents = 100000 # pp(bar) -> W + jet # (Note: W+photon final states not included; assumed vetoed by analyses) MSEL 0 MSUB(16) 1 MSUB(31) 1 # Photon-initiated (only if PDF contains photons) MSUB(36) 1 ## W+- decays to e nu_e / mu nu_mu (+ conj) only # dbar u MDME(190,1) 0 # dbar c MDME(191,1) 0 # dbar t MDME(192,1) 0 # dbar t' MDME(193,1) -1 # sbar u MDME(194,1) 0 # sbar c MDME(195,1) 0 # sbar t MDME(196,1) 0 # sbar t' MDME(197,1) -1 # bbar u MDME(198,1) 0 # bbar c MDME(199,1) 0 # bbar t MDME(200,1) 0 # bbar t' MDME(201,1) -1 # b'bar u MDME(202,1) -1 # b'bar c MDME(203,1) -1 # b'bar t MDME(204,1) -1 # b'bar t' MDME(205,1) -1 # e+ nu_e MDME(206,1) 1 # mu+ nu_mu MDME(207,1) 1 # tau+ nu_tau MDME(208,1) 0 # tau'+ nu'_tau MDME(209,1) -1 # Set cuts # Use this for hard leading-jets in a certain pT window # min pT CKIN(3) 125 # max pT CKIN(4) 7000 # Makes particles with c*tau > 10 mm stable: MSTJ(22) 2 PARJ(71) 10.0 # set tune MSTP(5) 345