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example.slha
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example.slha
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#
# ======================
# | THE SUSYHIT OUTPUT |
# ======================
#
#
# ------------------------------------------------------
# | This is the output of the SUSY-HIT package |
# | created by A.Djouadi, M.Muehlleitner and M.Spira. |
# | In case of problems with SUSY-HIT email to |
# | [email protected] |
# | [email protected] |
# | [email protected] |
# ------------------------------------------------------
#
# ------------------------------------------------------
# | SUSY Les Houches Accord - MSSM Spectrum + Decays |
# | based on the decay programs |
# | |
# | SDECAY 1.2 |
# | |
# | Authors: M.Muhlleitner, A.Djouadi and Y.Mambrini |
# | Ref.: Comput.Phys.Commun.168(2005)46 |
# | [hep-ph/0311167] |
# | |
# | HDECAY 3.302 |
# | |
# | By: A.Djouadi,J.Kalinowski,M.Muhlleitner,M.Spira |
# | Ref.: Comput.Phys.Commun.108(1998)56 |
# | [hep-ph/9704448] |
# | |
# | |
# | If not stated otherwise all DRbar couplings and |
# | soft SUSY breaking masses are given at the scale |
# | Q= 0.29052880E+03
# | |
# ------------------------------------------------------
#
#
#
BLOCK SPINFO # Spectrum calculator information
1 MRENNA # spectrum calculator
2 1.0.1 # version number
#
BLOCK MODSEL # Model selection
1 1 #
#
BLOCK MINPAR # Input parameters - minimal models
1 2.00000000E+02 # 380.186178969
2 1.60000000E+02 # 3.605805917292
3 1.00000000E+01 # tanb
4 1.00000000E+00 # sign(mu)
5 -4.00000000E+02 # A0
#
BLOCK MASS # Mass Spectrum
# PDG code mass particle
25 1.00000000E+05
35 1.00000000E+05
36 1.00000000E+05
37 1.00000000E+05
1000001 1.00000000E+05 # ~d_L
2000001 1.00000000E+05 # ~d_R
1000002 1.00000000E+05 # ~u_L
2000002 1.00000000E+05 # ~u_R
1000003 1.00000000E+05 # ~s_L
2000003 1.00000000E+05 # ~s_R
1000004 1.00000000E+05 # ~c_L
2000004 1.00000000E+05 # ~c_R
1000005 1.00000000E+05 # ~b_1
2000005 1.00000000E+05 # ~b_2
1000006 1.00000000E+05 # ~t_1
2000006 1.00000000E+05 # ~t_2
1000011 1.00000000E+05 # ~e_L
2000011 1.00000000E+05 # ~e_R
1000012 1.00000000E+05 # ~nu_eL
1000013 1.00000000E+05 # ~mu_L
2000013 1.00000000E+05 # ~mu_R
1000014 1.00000000E+05 # ~nu_muL
1000015 1.00000000E+05 # ~tau_1
2000015 1.00000000E+05 # ~tau_2
1000016 1.00000000E+05 # ~nu_tauL
1000021 1.00000000E+05 # ~g
1000022 3.60580591729 # ~chi_10
1000023 1.00000000E+05 # ~chi_20
1000024 1000 # ~chi_1+
1000025 1.00000000E+05 # ~chi_30
1000035 1.00000000E+05 # ~chi_40
1000037 1.00000000E+05 # ~chi_2+
# /
BLOCK NMIX
1 1 -1.00000000e+00
1 2 0.00000000e+00
1 3 0.00000000e+00
1 4 0.00000000e+00
2 1 0.00000000e+00
2 2 -1.00000000e+00
2 3 0.00000000e+00
2 4 0.00000000e+00
3 1 0.00000000e+00
3 2 0.00000000e+00
3 3 -7.07000000e-01
3 4 -7.07000000e-01
4 1 0.00000000e+00
4 2 0.00000000e+00
4 3 -7.07000000e-01
4 4 7.07000000e-01
#
BLOCK UMIX
1 1 -1.00000000e+00
1 2 0.00000000e+00
2 1 0.00000000e+00
2 2 -1.00000000e+00
#
BLOCK VMIX
1 1 -1.00000000e+00
1 2 0.00000000e+00
2 1 0.00000000e+00
2 2 -1.00000000e+00
#
BLOCK STOPMIX # Stop Mixing Matrix
1 1 5.78881371E-01 # cos(theta_t)
1 2 8.15411772E-01 # sin(theta_t)
2 1 -8.15411772E-01 # -sin(theta_t)
2 2 5.78881371E-01 # cos(theta_t)
#
BLOCK SBOTMIX # Sbottom Mixing Matrix
1 1 9.66726392E-01 # cos(theta_b)
1 2 2.55812594E-01 # sin(theta_b)
2 1 -2.55812594E-01 # -sin(theta_b)
2 2 9.66726392E-01 # cos(theta_b)
#
BLOCK STAUMIX # Stau Mixing Matrix
1 1 4.51419848E-01 # cos(theta_tau)
1 2 8.92311672E-01 # sin(theta_tau)
2 1 -8.92311672E-01 # -sin(theta_tau)
2 2 4.51419848E-01 # cos(theta_tau)
#
BLOCK ALPHA # Higgs mixing
-1.13676047E-01 # Mixing angle in the neutral Higgs boson sector
#
BLOCK HMIX Q= 2.90528802E+02 # DRbar Higgs Parameters
1 3.05599351E+02 # mu(Q)MSSM
#
BLOCK AU Q= 2.90528802E+02 # The trilinear couplings
1 1 0.00000000E+00 # A_u(Q) DRbar
2 2 0.00000000E+00 # A_c(Q) DRbar
3 3 -4.46245994E+02 # A_t(Q) DRbar
#
BLOCK AD Q= 2.90528802E+02 # The trilinear couplings
1 1 0.00000000E+00 # A_d(Q) DRbar
2 2 0.00000000E+00 # A_s(Q) DRbar
3 3 -8.28806503E+02 # A_b(Q) DRbar
#
BLOCK AE Q= 2.90528802E+02 # The trilinear couplings
1 1 0.00000000E+00 # A_e(Q) DRbar
2 2 0.00000000E+00 # A_mu(Q) DRbar
3 3 -4.92306701E+02 # A_tau(Q) DRbar
#
BLOCK MSOFT Q= 2.90528802E+02 # The soft SUSY breaking masses at the scale Q
1 6.39136864E+01 # M_1(Q)
2 1.22006983E+02 # M_2(Q)
3 3.90619532E+02 # M_3(Q)
21 4.42860395E+04 # mH1^2(Q)
22 -9.76585434E+04 # mH2^2(Q)
31 2.26648170E+02 # meL(Q)
32 2.26648170E+02 # mmuL(Q)
33 2.24355944E+02 # mtauL(Q)
34 2.08394096E+02 # meR(Q)
35 2.08394096E+02 # mmuR(Q)
36 2.03337218E+02 # mtauR(Q)
41 4.08594291E+02 # mqL1(Q)
42 4.08594291E+02 # mqL2(Q)
43 3.46134575E+02 # mqL3(Q)
44 3.98943379E+02 # muR(Q)
45 3.98943379E+02 # mcR(Q)
46 2.58021672E+02 # mtR(Q)
47 3.95211849E+02 # mdR(Q)
48 3.95211849E+02 # msR(Q)
49 3.90320031E+02 # mbR(Q)
# DECAY TABLE
DECAY 1000023 0.10000000E+00 # neutralino2 decays
# BR NDA ID1 ID2 ID3
1.00000000E+00 2 23 1000022
DECAY 1000024 0.00000000E+00 # chargino1+ decays