Block MODSEL 3 1 # NMSSM 5 2 # 0: CP-conserving; 2: general CP-violation 6 4 # loop level 1: one 2: two O(alpha_t alpha_s) 3: two O(alpha_t alpha_s + alpha_t^2) 4: two O(alpha_t alpha_s + (alpha_t+alpha_lambda+alpha_kappa)^2) 7 3 # for top/stop sector: 1: DRbar scheme no gauge running; 2: DRbar w/ gauge running 3: OS scheme 8 0 # 0: MHpm as Input, 1: Alambda as Input 10 2 # 0: no EDMs calculated (default), 1: EDMs calculated, 2: detailed output 11 2 # 0: no AMMs calculated (default), 1: AMMs calculated, 2: detailed output # Block REGFACTOR 1 1 # regulator factor R to define regulator mass MG^2=R*10^(-3) MUR^2, MUR renormaliation scale, used in O((alpha_t+lambda+kappa)^2) correction # Block SMINPUTS 1 1.27955000E+02 # alpha_em^(-1) 2 1.16637000E-05 # G_F 3 1.18100000E-01 # alpha_s 4 9.11876000E+01 # Mz 5 4.18000000E+00 # m_b^MS(mb) 6 1.72740000E+02 # m_t 7 1.77682000E+00 # m_tau 9 8.03790000E+01 # Mw 11 5.10998910E-04 # m_e 13 1.05658367E-01 # m_mu 21 4.70000000E-03 # m_d 22 2.20000000E-03 # m_u 23 0.95000000E-01 # m_s 24 1.27400000E+00 # m_c # Block EXTPAR 1 644.469900 # M1 2 585.228500 # M2 3 1850.000000 # M3 11 -1921.717000 # At 12 -1884.847000 # Ab 13 1170.264000 # Atau 25 4.442242 # tanbeta 27 897.826700 # H_pm !comment out if Alambda is an input 61 0.301175 # lambda 62 0.299105 # abskappa # 63 6.26545185E+02 # Alambda !comment out if H_pm is an input 64 -791.443600 # Akappa 65 208.727800 # mu_eff 32 3000.000000 # ml_2 33 1368.968000 # ml_3 35 3000.000000 # mer_2 36 2967.018000 # mer_3 42 3000.000000 # mq_2 43 1226.038000 # mq_3 45 3000.000000 # mur_2 46 880.862400 # mur_3 48 3000.000000 # mdr_2 49 2765.234000 # mdr_3 Block IMEXTPAR 1 0.000000 # M1 2 0.000000 # M2 3 0.000000 # M3 11 0.000000 # At 12 0.000000 # Ab 13 0.000000 # Atau 61 0.000000 # lambda 62 0.000000 # abskappa 65 0.000000 # mu_eff Block CMPLX 3 0.000000 # phiu