# # ===================== # | SuSpect 2.40 OUTPUT | # ===================== # # # ----------------------------------------------------- # | SUSY Les Houches Accord - MSSM Spectrum | # | | # | SuSpect 2.40 | # | | # | Authors: A.Djouadi, J.-L. Kneur and G. Moultaka | # | Ref.: hep-ph/0211331 | # | | # ----------------------------------------------------- # # BLOCK SPINFO # Spectrum Program information 1 SuSpect # RGE +Spectrum calculator 2 2.40 # version number # nothing to signal: output a priori reliable # BLOCK MODSEL # Model selection 1 -1 bottom-up MSSM # BLOCK EXTPAR # Input parameters 0 4.65452272E+02 # EWSB scale 1 1.01458764E+02 # M_1 2 1.91594458E+02 # M_2 3 5.86585365E+02 # M_3 10 2.47100000E+16 # HIGH 11 -4.94493457E+02 # A_t(Q) 12 -7.95158819E+02 # A_b(Q) 13 -2.51673474E+02 # A_tau(Q) 14 -6.77297454E+02 # A_u(Q) 15 -8.59425910E+02 # A_d(Q) 16 -2.53428826E+02 # A_e(Q) 23 3.56856497E+02 # mu(EWSB) 25 1.00000000E+01 # tanbeta(MZ) 26 3.98838901E+02 # MA 31 1.95513772E+02 # M_eL 32 1.95513772E+02 # M_muL 33 1.94674422E+02 # M_tauL 34 1.35968315E+02 # M_eR 35 1.35968315E+02 # M_muR 36 1.33498109E+02 # M_tauR 41 5.45798607E+02 # M_q1L 42 5.45798607E+02 # M_q2L 43 4.96980458E+02 # M_q3L 44 5.27770414E+02 # M_uR 45 5.27770414E+02 # M_cR 46 4.21543313E+02 # M_tR 47 5.25676614E+02 # M_dR 48 5.25676614E+02 # M_sR 49 5.22379470E+02 # M_bR # BLOCK SMINPUTS # Standard Model inputs 1 1.27934000E+02 # alpha_em^-1(M_Z)^MSbar 2 1.16639000E-05 # G_F [GeV^-2] 3 1.17200000E-01 # alpha_S(M_Z)^MSbar 4 9.11870000E+01 # M_Z pole mass 5 4.25000000E+00 # mb(mb)^MSbar 6 1.75000000E+02 # mt pole mass 7 1.77700000E+00 # mtau pole mass # BLOCK MASS # Mass Spectrum # PDG code mass particle 24 8.05029262E+01 # W+ 25 1.10861406E+02 # h 35 3.99224090E+02 # H 36 3.98838901E+02 # A 37 4.07162866E+02 # H+ 5 4.87884274E+00 # b pole mass calculated from mb(mb)_MSbar 1000001 5.67837092E+02 # ~d_L 2000001 5.45675125E+02 # ~d_R 1000002 5.62335280E+02 # ~u_L 2000002 5.45947735E+02 # ~u_R 1000003 5.67837092E+02 # ~s_L 2000003 5.45675125E+02 # ~s_R 1000004 5.62335280E+02 # ~c_L 2000004 5.45947735E+02 # ~c_R 1000005 5.16207528E+02 # ~b_1 2000005 5.46260363E+02 # ~b_2 1000006 3.99511608E+02 # ~t_1 2000006 5.85948751E+02 # ~t_2 1000011 2.00841056E+02 # ~e_L 2000011 1.42830720E+02 # ~e_R 1000012 1.84934876E+02 # ~nu_eL 1000013 2.00841056E+02 # ~mu_L 2000013 1.42830720E+02 # ~mu_R 1000014 1.84934876E+02 # ~nu_muL 1000015 1.33202230E+02 # ~tau_1 2000015 2.04958928E+02 # ~tau_2 1000016 1.84047287E+02 # ~nu_tauL 1000021 6.06137253E+02 # ~g 1000022 9.83161289E+01 # ~chi_10 1000023 1.76408314E+02 # ~chi_20 1000025 -3.63114583E+02 # ~chi_30 1000035 3.81443362E+02 # ~chi_40 1000024 1.75794831E+02 # ~chi_1+ 1000037 3.81687013E+02 # ~chi_2+ # BLOCK SU_LOWPAR # Values constrained by exp data 1 8.85564968E-05 # Delta rho parameter 2 2.80716357E-09 # g_mu -2 3 2.62880817E-04 # Br(b -> s gamma) # BLOCK SU_FINETUNE # Fine-tuning info: fine-tuned if >>1 1 3.19472313E+01 # delta mZ^2/mZ^2 (mu^2) 2 8.04170145E-01 # delta mZ^2/mZ^2 (B.mu) 3 1.59898147E+01 # delta mt/mt (mu^2) 4 3.91984062E-01 # delta mt/mt (B.mu) # BLOCK NMIX # Neutralino Mixing Matrix 1 1 9.85403331E-01 # N_11 1 2 -5.94557578E-02 # N_12 1 3 1.49713029E-01 # N_13 1 4 -5.50572116E-02 # N_14 2 1 1.06805100E-01 # N_21 2 2 9.44017866E-01 # N_22 2 3 -2.71383443E-01 # N_23 2 4 1.54188088E-01 # N_24 3 1 6.04811201E-02 # N_31 3 2 -9.07142602E-02 # N_32 3 3 -6.95344505E-01 # N_33 3 4 -7.10358344E-01 # N_34 4 1 1.17961771E-01 # N_41 4 2 -3.11554497E-01 # N_42 4 3 -6.48408094E-01 # N_43 4 4 6.84533242E-01 # N_44 # BLOCK UMIX # Chargino Mixing Matrix U 1 1 -9.17262221E-01 # U_11 1 2 3.98283841E-01 # U_12 2 1 3.98283841E-01 # U_21 2 2 9.17262221E-01 # U_22 # BLOCK VMIX # Chargino Mixing Matrix V 1 1 -9.73802004E-01 # V_11 1 2 2.27397574E-01 # V_12 2 1 2.27397574E-01 # V_21 2 2 9.73802004E-01 # V_22 # BLOCK STOPMIX # Stop Mixing Matrix 1 1 5.50215680E-01 # cos(theta_t) 1 2 8.35022578E-01 # sin(theta_t) 2 1 -8.35022578E-01 # -sin(theta_t) 2 2 5.50215680E-01 # cos(theta_t) # BLOCK SBOTMIX # Sbottom Mixing Matrix 1 1 9.32583317E-01 # cos(theta_b) 1 2 3.60954786E-01 # sin(theta_b) 2 1 -3.60954786E-01 # -sin(theta_b) 2 2 9.32583317E-01 # cos(theta_b) # BLOCK STAUMIX # Stau Mixing Matrix 1 1 2.86757880E-01 # cos(theta_tau) 1 2 9.58003089E-01 # sin(theta_tau) 2 1 -9.58003089E-01 # -sin(theta_tau) 2 2 2.86757880E-01 # cos(theta_tau) # BLOCK ALPHA # Higgs mixing -1.13932907E-01 # Mixing angle in the neutral Higgs boson sector # BLOCK HMIX Q= 4.65452272E+02 # DRbar Higgs Parameters 1 3.53184861E+02 # mu(Q) 2 9.74227985E+00 # tanbeta(Q) 3 2.44929419E+02 # vev(Q) 4 1.65822894E+05 # MA^2(Q) # BLOCK GAUGE Q= 4.65452272E+02 # The gauge couplings 1 3.60951451E-01 # gprime(Q) DRbar 2 6.46421040E-01 # g(Q) DRbar 3 1.09622222E+00 # g_3(Q) DRbar # BLOCK Au Q= 4.65452272E+02 # The trilinear couplings 1 1 -1.00238945E+02 # A_u(Q) DRbar 2 2 -1.00238945E+02 # A_c(Q) DRbar 3 3 -1.00457050E+02 # A_t(Q) DRbar # BLOCK Ad Q= 4.65452272E+02 # The trilinear couplings 1 1 -1.00012927E+02 # A_d(Q) DRbar 2 2 -1.00012927E+02 # A_s(Q) DRbar 3 3 -1.00086207E+02 # A_b(Q) DRbar # BLOCK Ae Q= 4.65452272E+02 # The trilinear couplings 1 1 -1.00006487E+02 # A_e(Q) DRbar 2 2 -1.00006487E+02 # A_mu(Q) DRbar 3 3 -1.00006803E+02 # A_tau(Q) DRbar # BLOCK Yu Q= 4.65452272E+02 # The Yukawa couplings 3 3 8.93721992E-01 # y_top(Q) DRbar # BLOCK Yd Q= 4.65452272E+02 # The Yukawa couplings 3 3 1.39457869E-01 # y_b(Q) DRbar # BLOCK Ye Q= 4.65452272E+02 # The Yukawa couplings 3 3 1.01104788E-01 # y_tau(Q) DRbar # BLOCK MSOFT Q= 4.65452272E+02 # soft SUSY breaking masses at the scale Q 1 2.50001322E+02 # M_1 2 2.49995334E+02 # M_2 3 2.50000316E+02 # M_3 21 1.00035924E+04 # M^2_Hd 22 1.02789657E+04 # M^2_Hu 31 1.00005939E+02 # M_eL 32 1.00005939E+02 # M_muL 33 1.00006264E+02 # M_tauL 34 1.00003968E+02 # M_eR 35 1.00003968E+02 # M_muR 36 1.00004622E+02 # M_tauR 41 1.00022567E+02 # M_q1L 42 1.00022567E+02 # M_q2L 43 1.00452781E+02 # M_q3L 44 1.00011732E+02 # M_uR 45 1.00011732E+02 # M_cR 46 1.00882505E+02 # M_tR 47 1.00016082E+02 # M_dR 48 1.00016082E+02 # M_sR 49 1.00023479E+02 # M_bR