C------------------------------------------------------------------------------ C STEERING FILE FOR ACERMC (3.0) - BASIC SETTINGS C------------------------------------------------------------------------------ C==== TURN ON FFKEY STEERING FILE (DEBUG) LIST C==== CMS/ACSET(1) C Specify the centre-of-mass energy in GeV CMS 14000.0 C==== C==== ACER C Use AcerMC code C ACER=0 - no C ACER=1 - yes C ACER=2 - yes & store events to file; see the manual for details C ACER=3 - yes & read events from file; see the manual for details ACER 2 C==== C==== PROCESS/IACSET ARRAY C Specify the process to generate. The available AcerMC processes are: C C 1) g + g -> t t~ b b~ (MG) C 2) q + q~ -> t t~ b b~ (MG) C 3) q + q~ -> (W->) l nu_l b b~ (MG) C 4) q + q~ -> (W->) l nu_l t t~ (MG) C 5) g + g -> (Z0->) l l~ b b~ (MG) C 6) q + q~ -> (Z0->) l l~ b b~ (MG) C 7) g + g -> (Z0->) f f~ t t~ (MG) C 8) q + q~ -> (Z0->) f f~ t t~ (MG) C 9) g + g -> (Z0/W/gamma->)t t~ b b~ (MG) C 10) q + q -> (Z0/W/gamma->)t t~ b b~ (MG) C 11) g + g -> t t~ off-shell (MG) C 12) q + q~ -> t t~ off-shell (MG) C 13) g + g -> (W W b b~ ->) ~ 2f_1 2f_2 b b~ (MG) 80 C 14) q + q~ -> (W W b b~ ->) ~ 2f_1 2f_2 b b~ (MG) C 15) g + g -> t t~ t t~ (MG) C 16) q + q~ -> t t~ t t~ (MG) C 17) q + b(g) -> q' t(~) b -> q' b(~) f_1 f_2 (b) (MG) 85+86 C 18) b + b(g) -> (Z0/gamma->) l l~ b (MG) 81+82 C 19) q + q~ -> t b~ -> f f b b~ (s-chan) (MG) C 20) g + b(g) -> (W W b b~ ->) ~ 2f_1 2f_2 b b~ (MG) 80 + 89 C 21) q + q~ -> (Z'/Z0/gamma) -> t t~ off-shell (MG) C C 'Control processes' C C 91) q + q~ -> (Z0/gamma->) l l~ (MG) C 92) g + g -> t t~ (MG) C 93) q + q~ -> t t~ (MG) C 94) q + q~ -> (W->) l nu_l (MG) C 95) g + g -> b b~ W W (MG) C 96) b + b -> (Z0/gamma->) l l~ (MG) 81 C 97) g + b(~) -> (Z0/gamma->) l l~ b (MG) 82 C 98) q + b(~) -> q' t(~) (MG) 83 C 99) q + g -> q' t(~) b (MG) 84 C 100) q + b(~) -> q' t(~) -> q' b(~) f_1 f_2 (MG) 85 C 101) q + g -> q' t(~) b -> q' b(~) f_1 f_2 b (MG) 86 C 102) q + b(~) -> q' t(~) b -> q' b(~) W (MG) C 103) q + b(g) -> q' t(~) b (MG) 83+84 C 104) g + b -> t l nu_l (W-chan) (MG) 87 C 105) g + b -> (t W ->) b 2f_1 2f_2 (W-chan) (MG) 89 C 106) g + g -> t l nu_l b~ (W-chan) (MG) 88 C 107) g + g -> (t W b ->) 2f_1 2f_2 b b~ (MG) 90 C C In case ACER=0 the native Pythia/Herwig conventions should be used C e.g. for Herwig PROCESS 1453 1355 3000 PROCESS 105 C==== C==== HAD C Control of hadronization/fragmentation/ISR/FSR switches: C HAD=0 - switch off radiation in initial and final state, multinteraction and C hadronization C HAD=1 - switch off radiation in final state and hadronization C HAD=2 - switch off hadronization C HAD=3 - full treatment C HAD=4 - switch off radiation in initial state, multiinteraction and hadronization C HAD=5 - switch off radiation in initial state and multiinteraction HAD 0 C==== C==== PDF-SET/ACSET(7) C Choose a PDF set according to LHAPDF naming scheme C PDFSET=19070 represents the CTEQ5L parametrised set C PDFSET=10042 represents the CTEQ6L parametrised set PDFSET 10042 C==== C==== RSEED C Choose the random seed for random generator initialisation RSEED 550011 C==== C==== TAUOLA C Tau decays handled by TAUOLA library C TAUOLA=0 - use internal PYTHIA/HERWIG mechanisms for Tau decays C TAUOLA=1 - use the TAUOLA library for Tau decays TAUOLA 0 C==== C==== PHOTOS C QED FSR handled by PHOTOS library C PHOTOS=0 - use internal PYTHIA/HERWIG mechanisms for FSR photon radiation C PHOTOS=1 - use the PHOTOS routines for FSR photon radiation PHOTOS 0 C==== C==== NEVENT/ACSET(51) C Specify the number of events to generate NEVENT 5000 C==== C ------------------------------------------------------------------------------ END