SUSY DM calcs using micromegas 19.07.2012 Parameters for NMSSM: aLmbdQ, aKappQ, LambdQ, KappaQ, mu <- Higgs sector parameters MG1,2,3 < Gaugino masses Ml2,3; Mr2,3 <- left and right handed slepton masses Mq2,3 <- left handed squark masses Mu2,3 <- right handed up-type squark masses Md2,3 <- right handed down-type squark masses Au,d,t,b,l <- ??? 18.07.2012 Preparing to run NMSSM EWSB. Specifiying low-energy parameters and running using random_sampling/nmssm_runner_ewsb.py. Approximate output size per successful point is ~~40KB. Time per point is about 1/3 sec. NMSSM parameter specifications are the following (for NMSSM/sampling_NMSSM_EWSB.cfg): "Ml2","Ml3","Mr2","Mr3","Mq2","Mq3","Mu2","Mu3","Md2","Md3","MG1","MG2","MG3" <-- 100...2000 "At","Ab","Al", "Au","Ad","Am" <-- -2000...2000 "mu" <-- -2000...2000 "tb" <-- 1...60 "LambdQ","KappaQ", <-- 0...1 "aLmbdQ","aKappQ", <-- -2000...2000 "MZ", "alfEMZ","alfSMZ","McMc","MbMb","Mtp" <-- keep default "Mm","Ml" <- mu, tau lepton masses; keep default "wt", "wZ","wW" <- t, Z, W widths; keep default 13.06.2012 Added a few lines to main.c that use hdecay to calculate higgs->gamma gamma branching ratio. Expects the hdecay runtime to be present in ./hdecay/run 12.06.2012 A general NMSSM sampling model is implemented in micromegas_2.4.5/MSSM/main.c It takes input parameters from the stdin (see the code) and produces output to the stdout (see the code). The input can be generated for 2 scenarios currently: 3G-MSSM and GUT-MSSM. The ranges for input parameters are specified in the relevant config files.