# # ====================== # | 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 | # | margarete.muehlleitner@kit.edu | # | michael.spira@psi.ch | # | abdelhak.djouadi@cern.ch | # ------------------------------------------------------ # # ------------------------------------------------------ # | This output of the SUSY-HIT package | # | includes the flavour-violating stop decays | # | implemented by R.Groeber, M. Muehlleitner, | # | Eva Popenda and Alexander Wlotzka. | # | In case of problems with these decays email to | # | groeber@roma3.infn.it | # | margarete.muehlleitner@kit.edu | # ------------------------------------------------------ # # ------------------------------------------------------ # | SUSY Les Houches Accord - MSSM Spectrum + Decays | # | based on the decay programs | # | | # | SDECAY 1.5 | # | | # | Authors: M.Muhlleitner, A.Djouadi and Y.Mambrini | # | Ref.: Comput.Phys.Commun.168(2005)46 | # | [hep-ph/0311167] | # | | # | HDECAY 3.4 | # | | # | 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= 0.30000000E+03 # | | # ------------------------------------------------------ # # BLOCK DCINFO # Decay Program information 1 SDECAY/HDECAY # decay calculator 2 1.5 /3.4 # version number # BLOCK SPINFO # Spectrum calculator information 1 SPheno # spectrum calculator 2 v3.3.4 # version number # BLOCK MODSEL # Model selection 1 0 # # General MSSM/pMSSM 6 3 # FV entry # BLOCK SMINPUTS # Standard Model inputs 1 1.27931402E+02 # alpha_em^-1(M_Z)^MSbar 2 1.16637900E-05 # G_F [GeV^-2] 3 1.18500000E-01 # alpha_S(M_Z)^MSbar 4 9.11876000E+01 # M_Z pole mass 5 4.18000000E+00 # mb(mb)^MSbar 6 1.73070000E+02 # mt pole mass 7 1.77682000E+00 # mtau pole mass # BLOCK MINPAR # Input parameters - minimal models 3 1.10000000E+01 # tanb 4 1.00000000E+00 # Sign(mu) # BLOCK EXTPAR # Input parameters - non-minimal models 1 3.50000000E+02 # M_1 2 6.50000000E+02 # M_2 3 1.53000000E+03 # M_3 23 9.00000000E+02 # mu 26 4.92000000E+02 # m_A 31 1.00000000E+03 # M^2_L11 32 1.00000000E+03 # M^2_L22 33 1.00000000E+03 # M^2_L33 34 1.00000000E+03 # M^2_E11 35 1.00000000E+03 # M^2_E22 36 1.00000000E+03 # M^2_E33 41 1.30900000E+03 # M^2_Q11 42 1.30900000E+03 # M^2_Q22 43 1.30900000E+03 # M^2_Q33 44 1.50000000E+03 # M^2_U11 45 1.50000000E+03 # M^2_U22 46 4.14000000E+02 # M^2_U33 47 1.50000000E+03 # M^2_D11 48 1.50000000E+03 # M^2_D22 49 1.50000000E+03 # M^2_D33 # BLOCK MASS # Mass Spectrum # PDG code mass particle 24 8.03919153E+01 # W+ 25 1.23527457E+02 # h 35 4.91350576E+02 # H 36 4.92000000E+02 # A 37 4.98446522E+02 # H+ 5 4.82046073E+00 # b-quark pole mass calculated from mb(mb)_Msbar 1000001 1.31346853E+03 # ~d_1 1000003 1.32842375E+03 # ~d_2 1000005 1.32842432E+03 # ~d_3 2000001 1.51681563E+03 # ~d_4 2000003 1.51681566E+03 # ~d_5 2000005 1.51688130E+03 # ~d_6 1000002 3.67702860E+02 # ~u_1 1000004 1.32626786E+03 # ~u_2 1000006 1.32626801E+03 # ~u_3 2000002 1.33920063E+03 # ~u_4 2000004 1.51633681E+03 # ~u_5 2000006 1.51633690E+03 # ~u_6 1000011 9.94150291E+02 # ~e_1 1000013 1.00206564E+03 # ~e_2 1000015 1.00223887E+03 # ~e_3 2000011 1.00358870E+03 # ~e_4 2000013 1.00376101E+03 # ~e_5 2000015 1.01143174E+03 # ~e_6 1000012 1.00017647E+03 # ~nu_eL 1000014 1.00017647E+03 # ~nu_muL 1000016 1.00023160E+03 # ~nu_tauL 1000021 1.55381669E+03 # ~g 1000022 3.48714110E+02 # ~chi_10 1000023 6.57364992E+02 # ~chi_20 1000025 -8.97683272E+02 # ~chi_30 1000035 9.13406559E+02 # ~chi_40 1000024 6.57469517E+02 # ~chi_1+ 1000037 9.12727476E+02 # ~chi_2+ # BLOCK NMIX # Neutralino Mixing Matrix 1 1 -9.97625841E-01 # N_11 1 2 7.62461821E-03 # N_12 1 3 -6.22419842E-02 # N_13 1 4 2.84689712E-02 # N_14 2 1 -2.28752017E-02 # N_21 2 2 -9.72737564E-01 # N_22 2 3 1.83439536E-01 # N_23 2 4 -1.40029615E-01 # N_24 3 1 -2.36118082E-02 # N_31 3 2 3.18525719E-02 # N_32 3 3 7.05847920E-01 # N_33 3 4 7.07252862E-01 # N_34 4 1 -6.05135471E-02 # N_41 4 2 2.29584211E-01 # N_42 4 3 6.81362302E-01 # N_43 4 4 -6.92368843E-01 # N_44 # BLOCK UMIX # Chargino Mixing Matrix U 1 1 -9.64336467E-01 # U_11 1 2 2.64679390E-01 # U_12 2 1 2.64679390E-01 # U_21 2 2 9.64336467E-01 # U_22 # BLOCK VMIX # Chargino Mixing Matrix V 1 1 -9.79188197E-01 # V_11 1 2 2.02954365E-01 # V_12 2 1 2.02954365E-01 # V_21 2 2 9.79188197E-01 # V_22 # BLOCK USQMIX # Mixing Matrix in the sup-sector 1 1 -1.12668182E-07 # USQMIX(1,1) 2 1 9.98798083E-01 # USQMIX(2,1) 3 1 4.90141755E-02 # USQMIX(3,1) 4 1 2.48928763E-05 # USQMIX(4,1) 5 1 -9.53237286E-08 # USQMIX(5,1) 6 1 -2.38809187E-12 # USQMIX(6,1) 1 2 -1.35899658E-06 # USQMIX(1,2) 2 2 -4.90141807E-02 # USQMIX(2,2) 3 2 9.98798036E-01 # USQMIX(3,2) 4 2 3.00260661E-04 # USQMIX(4,2) 5 2 2.62045753E-12 # USQMIX(5,2) 6 2 4.83807521E-05 # USQMIX(6,2) 1 3 1.74586967E-01 # USQMIX(1,3) 2 3 -9.98208611E-06 # USQMIX(2,3) 3 3 -2.96257263E-04 # USQMIX(3,3) 4 3 9.84641713E-01 # USQMIX(4,3) 5 3 7.79028548E-14 # USQMIX(5,3) 6 3 -4.77078650E-10 # USQMIX(6,3) 1 4 -5.26324146E-15 # USQMIX(1,4) 2 4 9.52091573E-08 # USQMIX(2,4) 3 4 4.67220935E-09 # USQMIX(3,4) 4 4 2.29276516E-12 # USQMIX(4,4) 5 4 1.00000000E+00 # USQMIX(5,4) 6 4 -5.40693241E-08 # USQMIX(6,4) 1 5 -3.22213064E-11 # USQMIX(1,5) 2 5 -2.37134532E-06 # USQMIX(2,5) 3 5 4.83226003E-05 # USQMIX(3,5) 4 5 1.40363718E-08 # USQMIX(4,5) 5 5 -5.40693241E-08 # USQMIX(5,5) 6 5 -9.99999999E-01 # USQMIX(6,5) 1 6 -9.84641758E-01 # USQMIX(1,6) 2 6 -1.81656402E-06 # USQMIX(2,6) 3 6 -5.39135598E-05 # USQMIX(3,6) 4 6 1.74586958E-01 # USQMIX(4,6) 5 6 1.93732501E-14 # USQMIX(5,6) 6 6 -1.18641800E-10 # USQMIX(6,6) # BLOCK DSQMIX # Mixing Matrix in the sdown-sector 1 1 -5.85564568E-03 # DSQMIX(1,1) 2 1 1.24032408E-01 # DSQMIX(2,1) 3 1 -9.92260889E-01 # DSQMIX(3,1) 4 1 -4.16417720E-05 # DSQMIX(4,1) 5 1 1.58738100E-08 # DSQMIX(5,1) 6 1 -1.72068909E-05 # DSQMIX(6,1) 1 2 4.02134894E-02 # DSQMIX(1,2) 2 2 -9.91445706E-01 # DSQMIX(2,2) 3 2 -1.24167824E-01 # DSQMIX(3,2) 4 2 4.02720598E-10 # DSQMIX(4,2) 5 2 7.90669190E-04 # DSQMIX(5,2) 6 2 1.18245213E-04 # DSQMIX(6,2) 1 3 -9.98499063E-01 # DSQMIX(1,3) 2 3 -4.05975322E-02 # DSQMIX(2,3) 3 3 8.17138588E-04 # DSQMIX(3,3) 4 3 -9.71007435E-09 # DSQMIX(4,3) 5 3 -1.26766942E-06 # DSQMIX(5,3) 6 3 3.67531418E-02 # DSQMIX(6,3) 1 4 -2.25763450E-07 # DSQMIX(1,4) 2 4 5.16492783E-06 # DSQMIX(2,4) 3 4 -4.13196217E-05 # DSQMIX(3,4) 4 4 9.99999999E-01 # DSQMIX(4,4) 5 4 -1.56224568E-06 # DSQMIX(5,4) 6 4 7.54511873E-07 # DSQMIX(6,4) 1 5 2.94425084E-05 # DSQMIX(1,5) 2 5 -7.84011313E-04 # DSQMIX(2,5) 3 5 -9.81892279E-05 # DSQMIX(3,5) 4 5 -1.56217204E-06 # DSQMIX(4,5) 5 5 -9.99999683E-01 # DSQMIX(5,5) 6 5 -9.84417151E-05 # DSQMIX(6,5) 1 6 -3.67179327E-02 # DSQMIX(1,6) 2 6 -1.61246704E-03 # DSQMIX(2,6) 3 6 3.24554473E-05 # DSQMIX(3,6) 4 6 7.55535820E-07 # DSQMIX(4,6) 5 6 9.85551719E-05 # DSQMIX(5,6) 6 6 -9.99324363E-01 # DSQMIX(6,6) # BLOCK HMIX Q= 3.00000000E+02 # DRbar Higgs Parameters 1 9.70364763E+02 # mu 2 1.07898280E+01 # tan[beta](Q) 3 2.46724885E+02 # v(Q) 4 3.69471192E+05 # m^2_A(Q) # BLOCK GAUGE Q= 3.00000000E+02 # The gauge couplings 1 3.58085801E-01 # gprime(Q) DRbar 2 6.37824950E-01 # g(Q) DRbar 3 1.07991041E+00 # g3(Q) DRbar # BLOCK TD Q= 3.00000000E+02 # Trilinear couplings of down 1 1 -1.72120666E-02 # TD(1,1) DRbar 1 2 5.47159731E-07 # TD(1,2) DRbar 1 3 -1.32990462E-05 # TD(1,3) DRbar 2 1 1.03904688E-05 # TD(2,1) DRbar 2 2 -3.26923932E-01 # TD(2,2) DRbar 2 3 1.73434206E-03 # TD(2,3) DRbar 3 1 -1.26232185E-02 # TD(3,1) DRbar 3 2 8.66888707E-02 # TD(3,2) DRbar 3 3 -1.84285194E+01 # TD(3,3) DRbar # BLOCK TU Q= 3.00000000E+02 # Trilinear couplings of up 1 1 -1.17121818E-03 # TU(1,1) DRbar 1 2 2.12320354E-11 # TU(1,2) DRbar 1 3 1.03928479E-08 # TU(1,3) DRbar 2 1 1.07761914E-08 # TU(2,1) DRbar 2 2 -5.94443647E-01 # TU(2,2) DRbar 2 3 6.36256130E-05 # TU(2,3) DRbar 3 1 3.87149955E-05 # TU(3,1) DRbar 3 2 4.67232103E-04 # TU(3,2) DRbar 3 3 1.48258477E+03 # TU(3,3) DRbar # BLOCK MSOFT Q= 3.00000000E+02 # The soft SUSY breaking masses at the scale Q 1 3.43872272E+02 # M_1 2 6.44849626E+02 # M_2 3 1.58399503E+03 # M_3 21 -5.71281250E+05 # M^2_Hd 22 -9.42463105E+05 # M^2_Hu 31 1.00353546E+03 # M_eL 32 1.00353512E+03 # M_muL 33 1.00343987E+03 # M_tauL 34 9.98602871E+02 # M_eR 35 9.98602184E+02 # M_muR 36 9.98408906E+02 # M_tauR 41 1.37037289E+03 # M_q1L 42 1.37035246E+03 # M_q2L 43 1.35787298E+03 # M_q3L 44 1.55370273E+03 # M_uR 45 1.55370242E+03 # M_cR 46 5.16770924E+02 # M_tR 47 1.55261932E+03 # M_dR 48 1.55261911E+03 # M_sR 49 1.55211729E+03 # M_bR # # # # ================= # |The decay table| # ================= # PDG Width DECAY 1000002 6.22396220E-14 # stop1 decays (light stop) # BR NDA ID1 ID2 1.61803942E-02 2 1000022 4 # BR(~t1 -> c ~chi_10) 1.11453854E-04 2 1000022 2 # BR(~t1 -> u ~chi_10) 9.51436617E-02 4 1000022 5 -15 16 # BR(~t1 -> b ~chi_10 tau nu_tau) 1.10705368E-01 4 1000022 5 -13 14 # BR(~t1 -> b ~chi_10 mu nu_mu) 1.10705331E-01 4 1000022 5 -11 12 # BR(~t1 -> b ~chi_10 e nu_e) 6.63307236E-01 4 1000022 5 2 -1 # BR(~t1 -> b ~chi_10 j j) 2.09083767E-04 4 1000022 5 -5 2 # BR(~t1 -> b ~chi_10 b j) 3.65453966E-04 4 1000022 1 -15 16 # BR(~t1 -> j ~chi_10 tau nu_tau) 4.09287147E-04 4 1000022 1 -13 14 # BR(~t1 -> j ~chi_10 mu nu_mu) 4.09287297E-04 4 1000022 1 -11 12 # BR(~t1 -> j ~chi_10 e nu_e) 1.01402465E-06 4 1000022 1 -5 2 # BR(~t1 -> j ~chi_10 b j) 2.45242859E-03 4 1000022 1 -1 2 # BR(~t1 -> j ~chi_10 j j)