#************************************************************ #* MadGraph5_aMC@NLO/MadEvent * #* * #* * * * #* * * * * * #* * * * * 5 * * * * * #* * * * * * #* * * * #* * #* * #* VERSION 3.2.0 2021-08-22 * #* * #* The MadGraph5_aMC@NLO Development Team - Find us at * #* https://server06.fynu.ucl.ac.be/projects/madgraph * #* * #************************************************************ #* * #* Command File for MadEvent * #* * #* run as ./bin/madevent.py filename * #* * #************************************************************ generate_events run_01 Traceback (most recent call last): File "/home/Universe/Softwares/MG5_aMC_v3_2_0/madgraph/interface/extended_cmd.py", line 1544, in onecmd return self.onecmd_orig(line, **opt) File "/home/Universe/Softwares/MG5_aMC_v3_2_0/madgraph/interface/extended_cmd.py", line 1493, in onecmd_orig return func(arg, **opt) File "/home/Universe/Softwares/MG5_aMC_v3_2_0/madgraph/interface/madevent_interface.py", line 2362, in do_generate_events self.run_generate_events(switch_mode, args) File "/home/Universe/Softwares/MG5_aMC_v3_2_0/madgraph/interface/common_run_interface.py", line 7257, in new_fct check_card(obj)(card_path, obj, iterator_class=iteratorclass) File "/home/Universe/Softwares/MG5_aMC_v3_2_0/madgraph/interface/common_run_interface.py", line 3525, in static_check_param_card if mass and abs(width/mass) < 1e-12: TypeError: unsupported operand type(s) for /: 'str' and 'float' Run Options ----------- stdout_level : 20 (user set) MadEvent Options ---------------- automatic_html_opening : True notification_center : True run_mode : 2 cluster_queue : None (user set) cluster_time : None (user set) cluster_size : 100 cluster_memory : 100 (user set) nb_core : 16 (user set) cluster_temp_path : None Configuration Options --------------------- pythia8_path : /home/Universe/Softwares/MG5_aMC_v3_2_0/HEPTools/pythia8 (user set) hwpp_path : None (user set) thepeg_path : None (user set) hepmc_path : None (user set) madanalysis_path : None (user set) madanalysis5_path : /home/Universe/Softwares/MG5_aMC_v3_2_0/HEPTools/madanalysis5/madanalysis5 (user set) pythia-pgs_path : None (user set) td_path : None (user set) delphes_path : /home/Universe/Softwares/MG5_aMC_v3_2_0/Delphes (user set) exrootanalysis_path : /home/Universe/Softwares/MG5_aMC_v3_2_0/ExRootAnalysis (user set) syscalc_path : None (user set) lhapdf : /home/Universe/Softwares/MG5_aMC_v3_2_0/HEPTools/lhapdf6_py3/bin/lhapdf-config (user set) lhapdf_py2 : None lhapdf_py3 : /home/Universe/Softwares/MG5_aMC_v3_2_0/HEPTools/lhapdf6_py3/bin/lhapdf-config (user set) timeout : 180 (user set) f2py_compiler : None f2py_compiler_py2 : None f2py_compiler_py3 : None web_browser : firefox (user set) eps_viewer : evince (user set) text_editor : vim (user set) fortran_compiler : gfortran (user set) cpp_compiler : g++ (user set) auto_update : 7 (user set) cluster_type : condor cluster_status_update : (600, 30) cluster_nb_retry : 1 cluster_local_path : None cluster_retry_wait : 300 #************************************************************ #* MadGraph5_aMC@NLO * #* * #* * * * #* * * * * * #* * * * * 5 * * * * * #* * * * * * #* * * * #* * #* * #* VERSION 3.2.0 2021-08-22 * #* * #* The MadGraph5_aMC@NLO Development Team - Find us at * #* https://server06.fynu.ucl.ac.be/projects/madgraph * #* * #************************************************************ #* * #* Command File for MadGraph5_aMC@NLO * #* * #* run as ./bin/mg5_aMC filename * #* * #************************************************************ set group_subprocesses Auto set ignore_six_quark_processes False set low_mem_multicore_nlo_generation False set complex_mass_scheme False set include_lepton_initiated_processes False set gauge unitary set loop_optimized_output True set loop_color_flows False set max_npoint_for_channel 0 set default_unset_couplings 99 set max_t_for_channel 99 set zerowidth_tchannel True set nlo_mixed_expansion True import model sm define p = g u c d s u~ c~ d~ s~ define j = g u c d s u~ c~ d~ s~ define l+ = e+ mu+ define l- = e- mu- define vl = ve vm vt define vl~ = ve~ vm~ vt~ import model /home/Universe/Softwares/MG5_aMC_v3_2_0/models/BLRSSM generate p p > c1 c1bar , (c1bar > v1 se1c , se1c > e3bar n1) output trial # SUSY Les Houches Accord 2 - BLRinvSeesaw Spectrum + Decays + Flavour Observables # SPheno module generated by SARAH # ---------------------------------------------------------------------- # SPheno v4.0.4 # W. Porod, Comput. Phys. Commun. 153 (2003) 275-315, hep-ph/0301101 # W. Porod, F.Staub, Comput.Phys.Commun.183 (2012) 2458-2469, arXiv:1104.1573 # SARAH: 4.14.5 # F. Staub; arXiv:0806.0538 (online manual) # F. Staub; Comput. Phys. Commun. 181 (2010) 1077-1086; arXiv:0909.2863 # F. Staub; Comput. Phys. Commun. 182 (2011) 808-833; arXiv:1002.0840 # F. Staub; Comput. Phys. Commun. 184 (2013) 1792-1809; arXiv:1207.0906 # F. Staub; Comput. Phys. Commun. 185 (2014) 1773-1790; arXiv:1309.7223 # Including the calculation of flavor observables based on FlavorKit # W. Porod, F. Staub, A. Vicente; Eur.Phys.J. C74 (2014) 8, 2992; arXiv:1405.1434 # Two-loop mass corrections to Higgs fields based on # M. D. Goodsell, K. Nickel, F. Staub; Eur.Phys.J. C75 (2015) no.6, 290; arXiv:1411.0675 # M. D. Goodsell, K. Nickel, F. Staub; Eur.Phys.J. C75 (2015) no.1, 32; arXiv:1503.03098 # M. D. Goodsell, F. Staub; Eur.Phys.J.C 77 (2017) 1, 46, arXiv:1604.05335 # J. Braathen, M. D. Goodsell, F. Staub; Eur.Phys.J.C 77 (2017) 11, 758; arXiv:1703.09237 # Loop decays based on # M. D. Goodsell, S. Liebler, F. Staub; Eur.Phys.J.C 77 (2017) 11, 757; arXiv:1706.05372 # Unitarity routines based on # M. D. Goodsell, F. Staub; Eur.Phys.J.C 78 (2018) 8, 649; arXiv:1805.07306 # M. D. Goodsell, R. Moutafis; arXiv:2012.09022 # # in case of problems send email to goodsell@lpthe.jussieu.fr and porod@physik.uni-wuerzburg.de, or consult the forum/wiki # ---------------------------------------------------------------------- # Created: 06.01.2022, 15:03 Block SPINFO # Program information 1 SPhenoSARAH # spectrum calculator 2 v4.0.4 # version number of SPheno 9 4.14.5 # version number of SARAH Block MODSEL # Input parameters 1 1 # GUT scale input 2 1 # Boundary conditions 6 1 # switching on flavour violation Block MINPAR # Input parameters 1 9.92450000E+02 # m0 2 1.12690000E+03 # m12 4 1.00000000E+00 # SignumMu 5 -2.71890000E+03 # Azero 6 1.00000000E+00 # SignumMuR 7 3.82600000E+01 # TanBeta 9 1.03940000E+00 # TanBetaRinput 11 1.66580000E+04 # vR Block gaugeGUT Q= 1.43413041E+16 # (GUT scale) 1 7.03054791E-01 # gBL(Q) 2 7.03054791E-01 # gL(Q) 3 7.03054791E-01 # gR(Q) 4 6.98333130E-01 # g3(Q) Block SMINPUTS # SM parameters 1 1.27932000E+02 # alpha_em^-1(MZ)^MSbar 2 1.16637000E-05 # G_mu [GeV^-2] 3 1.18700000E-01 # alpha_s(MZ)^MSbar 4 9.11887000E+01 # m_Z(pole) 5 4.18000000E+00 # m_b(m_b), MSbar 6 1.73500000E+02 # m_t(pole) 7 1.77669000E+00 # m_tau(pole) Block GAUGE Q= 1.87100118E+03 # (SUSY Scale) 1 5.72428852E-01 # gBL 2 6.37521943E-01 # gL 4 4.52952328E-01 # gR 3 1.02365803E+00 # g3 10 1.11871165E-02 # gBLgR 11 1.11909977E-02 # gRgBL Block HMIX Q= 1.87100118E+03 # (SUSY Scale) 9 1.46260627E+03 # MuR 1 1.91873576E+03 # Mu 109 2.35763139E+06 # BmuR 101 6.62447071E+04 # Bmu 106 1.15492666E+04 # vChiRb 105 1.20043077E+04 # vChiR 102 6.33777665E+00 # vd 103 2.42483334E+02 # vu 106 1.15492666E+04 # vChiRb 105 1.20043077E+04 # vChiR 3 2.42566145E+02 # v 10 1.54466576E+00 # betaH Block IMHMIX Q= 1.87100118E+03 # (SUSY Scale) 9 0.00000000E+00 # MuR 1 0.00000000E+00 # Mu 109 0.00000000E+00 # BmuR 101 -0.00000000E+00 # Bmu Block MSOFT Q= 1.87100118E+03 # (SUSY Scale) 21 -7.90754542E+05 # mHd2 22 -3.32516658E+06 # mHu2 31 -7.11049061E+05 # mCR2 32 1.02427327E+06 # mCRb2 8 2.28537263E+01 # MBBR 1 4.92692172E+02 # M1 2 8.96979574E+02 # M2 4 4.58012109E+02 # M4 3 2.38290218E+03 # M3 Block IMMSOFT Q= 1.87100118E+03 # (SUSY Scale) 8 0.00000000E+00 # MBBR 1 0.00000000E+00 # M1 2 0.00000000E+00 # M2 4 0.00000000E+00 # M4 3 0.00000000E+00 # M3 Block Yd Q= 1.87100118E+03 # (SUSY Scale) 1 1 4.11001343E-04 # Real(Yd(1,1),dp) 1 2 -1.10136489E-08 # Real(Yd(1,2),dp) 1 3 2.53651497E-07 # Real(Yd(1,3),dp) 2 1 -2.09248404E-07 # Real(Yd(2,1),dp) 2 2 7.81006843E-03 # Real(Yd(2,2),dp) 2 3 -3.32312207E-05 # Real(Yd(2,3),dp) 3 1 2.34789184E-04 # Real(Yd(3,1),dp) 3 2 -1.61903383E-03 # Real(Yd(3,2),dp) 3 3 4.27122920E-01 # Real(Yd(3,3),dp) Block IMYd Q= 1.87100118E+03 # (SUSY Scale) 1 1 0.00000000E+00 # Aimag(Yd(1,1)) 1 2 0.00000000E+00 # Aimag(Yd(1,2)) 1 3 0.00000000E+00 # Aimag(Yd(1,3)) 2 1 0.00000000E+00 # Aimag(Yd(2,1)) 2 2 0.00000000E+00 # Aimag(Yd(2,2)) 2 3 0.00000000E+00 # Aimag(Yd(2,3)) 3 1 0.00000000E+00 # Aimag(Yd(3,1)) 3 2 0.00000000E+00 # Aimag(Yd(3,2)) 3 3 0.00000000E+00 # Aimag(Yd(3,3)) Block Ye Q= 1.87100118E+03 # (SUSY Scale) 1 1 1.19883854E-04 # Real(Ye(1,1),dp) 1 2 0.00000000E+00 # Real(Ye(1,2),dp) 1 3 0.00000000E+00 # Real(Ye(1,3),dp) 2 1 0.00000000E+00 # Real(Ye(2,1),dp) 2 2 2.47885804E-02 # Real(Ye(2,2),dp) 2 3 0.00000000E+00 # Real(Ye(2,3),dp) 3 1 0.00000000E+00 # Real(Ye(3,1),dp) 3 2 0.00000000E+00 # Real(Ye(3,2),dp) 3 3 4.15293659E-01 # Real(Ye(3,3),dp) Block IMYe Q= 1.87100118E+03 # (SUSY Scale) 1 1 0.00000000E+00 # Aimag(Ye(1,1)) 1 2 0.00000000E+00 # Aimag(Ye(1,2)) 1 3 0.00000000E+00 # Aimag(Ye(1,3)) 2 1 0.00000000E+00 # Aimag(Ye(2,1)) 2 2 0.00000000E+00 # Aimag(Ye(2,2)) 2 3 0.00000000E+00 # Aimag(Ye(2,3)) 3 1 0.00000000E+00 # Aimag(Ye(3,1)) 3 2 0.00000000E+00 # Aimag(Ye(3,2)) 3 3 0.00000000E+00 # Aimag(Ye(3,3)) Block Yu Q= 1.87100118E+03 # (SUSY Scale) 1 1 6.44648953E-06 # Real(Yu(1,1),dp) 1 2 1.49398268E-06 # Real(Yu(1,2),dp) 1 3 2.31993509E-08 # Real(Yu(1,3),dp) 2 1 -7.47680969E-04 # Real(Yu(2,1),dp) 2 2 3.22407875E-03 # Real(Yu(2,2),dp) 2 3 1.38286740E-04 # Real(Yu(2,3),dp) 3 1 4.90490705E-03 # Real(Yu(3,1),dp) 3 2 -3.38229781E-02 # Real(Yu(3,2),dp) 3 3 8.16663772E-01 # Real(Yu(3,3),dp) Block IMYu Q= 1.87100118E+03 # (SUSY Scale) 1 1 0.00000000E+00 # Aimag(Yu(1,1)) 1 2 0.00000000E+00 # Aimag(Yu(1,2)) 1 3 0.00000000E+00 # Aimag(Yu(1,3)) 2 1 0.00000000E+00 # Aimag(Yu(2,1)) 2 2 0.00000000E+00 # Aimag(Yu(2,2)) 2 3 0.00000000E+00 # Aimag(Yu(2,3)) 3 1 0.00000000E+00 # Aimag(Yu(3,1)) 3 2 0.00000000E+00 # Aimag(Yu(3,2)) 3 3 0.00000000E+00 # Aimag(Yu(3,3)) Block Ys Q= 1.87100118E+03 # (SUSY Scale) 1 1 4.92980000E-01 # Real(Ys(1,1),dp) 1 2 0.00000000E+00 # Real(Ys(1,2),dp) 1 3 0.00000000E+00 # Real(Ys(1,3),dp) 2 1 0.00000000E+00 # Real(Ys(2,1),dp) 2 2 4.92980000E-01 # Real(Ys(2,2),dp) 2 3 0.00000000E+00 # Real(Ys(2,3),dp) 3 1 0.00000000E+00 # Real(Ys(3,1),dp) 3 2 0.00000000E+00 # Real(Ys(3,2),dp) 3 3 4.92980000E-01 # Real(Ys(3,3),dp) Block IMYs Q= 1.87100118E+03 # (SUSY Scale) 1 1 0.00000000E+00 # Aimag(Ys(1,1)) 1 2 0.00000000E+00 # Aimag(Ys(1,2)) 1 3 0.00000000E+00 # Aimag(Ys(1,3)) 2 1 0.00000000E+00 # Aimag(Ys(2,1)) 2 2 0.00000000E+00 # Aimag(Ys(2,2)) 2 3 0.00000000E+00 # Aimag(Ys(2,3)) 3 1 0.00000000E+00 # Aimag(Ys(3,1)) 3 2 0.00000000E+00 # Aimag(Ys(3,2)) 3 3 0.00000000E+00 # Aimag(Ys(3,3)) Block Yv Q= 1.87100118E+03 # (SUSY Scale) 1 1 4.53480000E-02 # Real(Yv(1,1),dp) 1 2 0.00000000E+00 # Real(Yv(1,2),dp) 1 3 0.00000000E+00 # Real(Yv(1,3),dp) 2 1 0.00000000E+00 # Real(Yv(2,1),dp) 2 2 4.53480000E-02 # Real(Yv(2,2),dp) 2 3 0.00000000E+00 # Real(Yv(2,3),dp) 3 1 0.00000000E+00 # Real(Yv(3,1),dp) 3 2 0.00000000E+00 # Real(Yv(3,2),dp) 3 3 4.53480000E-02 # Real(Yv(3,3),dp) Block IMYv Q= 1.87100118E+03 # (SUSY Scale) 1 1 0.00000000E+00 # Aimag(Yv(1,1)) 1 2 0.00000000E+00 # Aimag(Yv(1,2)) 1 3 0.00000000E+00 # Aimag(Yv(1,3)) 2 1 0.00000000E+00 # Aimag(Yv(2,1)) 2 2 0.00000000E+00 # Aimag(Yv(2,2)) 2 3 0.00000000E+00 # Aimag(Yv(2,3)) 3 1 0.00000000E+00 # Aimag(Yv(3,1)) 3 2 0.00000000E+00 # Aimag(Yv(3,2)) 3 3 0.00000000E+00 # Aimag(Yv(3,3)) Block Td Q= 1.87100118E+03 # (SUSY Scale) 1 1 -2.11070702E+00 # Real(Td(1,1),dp) 1 2 7.01826321E-06 # Real(Td(1,2),dp) 1 3 3.15593606E-05 # Real(Td(1,3),dp) 2 1 1.33363086E-04 # Real(Td(2,1),dp) 2 2 -4.01015307E+01 # Real(Td(2,2),dp) 2 3 -4.14167176E-03 # Real(Td(2,3),dp) 3 1 -2.36927451E-02 # Real(Td(3,1),dp) 3 2 1.62850499E-01 # Real(Td(3,2),dp) 3 3 -1.85772457E+03 # Real(Td(3,3),dp) Block IMTd Q= 1.87100118E+03 # (SUSY Scale) 1 1 0.00000000E+00 # Aimag(Td(1,1)) 1 2 0.00000000E+00 # Aimag(Td(1,2)) 1 3 0.00000000E+00 # Aimag(Td(1,3)) 2 1 0.00000000E+00 # Aimag(Td(2,1)) 2 2 0.00000000E+00 # Aimag(Td(2,2)) 2 3 0.00000000E+00 # Aimag(Td(2,3)) 3 1 0.00000000E+00 # Aimag(Td(3,1)) 3 2 0.00000000E+00 # Aimag(Td(3,2)) 3 3 0.00000000E+00 # Aimag(Td(3,3)) Block Te Q= 1.87100118E+03 # (SUSY Scale) 1 1 -3.50284806E-01 # Real(Te(1,1),dp) 1 2 0.00000000E+00 # Real(Te(1,2),dp) 1 3 0.00000000E+00 # Real(Te(1,3),dp) 2 1 0.00000000E+00 # Real(Te(2,1),dp) 2 2 -7.23899040E+01 # Real(Te(2,2),dp) 2 3 0.00000000E+00 # Real(Te(2,3),dp) 3 1 0.00000000E+00 # Real(Te(3,1),dp) 3 2 0.00000000E+00 # Real(Te(3,2),dp) 3 3 -1.03020467E+03 # Real(Te(3,3),dp) Block IMTe Q= 1.87100118E+03 # (SUSY Scale) 1 1 0.00000000E+00 # Aimag(Te(1,1)) 1 2 0.00000000E+00 # Aimag(Te(1,2)) 1 3 0.00000000E+00 # Aimag(Te(1,3)) 2 1 0.00000000E+00 # Aimag(Te(2,1)) 2 2 0.00000000E+00 # Aimag(Te(2,2)) 2 3 0.00000000E+00 # Aimag(Te(2,3)) 3 1 0.00000000E+00 # Aimag(Te(3,1)) 3 2 0.00000000E+00 # Aimag(Te(3,2)) 3 3 0.00000000E+00 # Aimag(Te(3,3)) Block Tu Q= 1.87100118E+03 # (SUSY Scale) 1 1 -2.77198622E-02 # Real(Tu(1,1),dp) 1 2 -6.42406723E-03 # Real(Tu(1,2),dp) 1 3 -9.72200396E-05 # Real(Tu(1,3),dp) 2 1 3.21501668E+00 # Real(Tu(2,1),dp) 2 2 -1.38633851E+01 # Real(Tu(2,2),dp) 2 3 -5.79485557E-01 # Real(Tu(2,3),dp) 3 1 -1.46721158E+01 # Real(Tu(3,1),dp) 3 2 1.01173658E+02 # Real(Tu(3,2),dp) 3 3 -2.35459924E+03 # Real(Tu(3,3),dp) Block IMTu Q= 1.87100118E+03 # (SUSY Scale) 1 1 0.00000000E+00 # Aimag(Tu(1,1)) 1 2 0.00000000E+00 # Aimag(Tu(1,2)) 1 3 0.00000000E+00 # Aimag(Tu(1,3)) 2 1 0.00000000E+00 # Aimag(Tu(2,1)) 2 2 0.00000000E+00 # Aimag(Tu(2,2)) 2 3 0.00000000E+00 # Aimag(Tu(2,3)) 3 1 0.00000000E+00 # Aimag(Tu(3,1)) 3 2 0.00000000E+00 # Aimag(Tu(3,2)) 3 3 0.00000000E+00 # Aimag(Tu(3,3)) Block Ts Q= 1.87100118E+03 # (SUSY Scale) 1 1 -8.73060633E+02 # Real(Ts(1,1),dp) 1 2 0.00000000E+00 # Real(Ts(1,2),dp) 1 3 0.00000000E+00 # Real(Ts(1,3),dp) 2 1 0.00000000E+00 # Real(Ts(2,1),dp) 2 2 -8.73060641E+02 # Real(Ts(2,2),dp) 2 3 0.00000000E+00 # Real(Ts(2,3),dp) 3 1 0.00000000E+00 # Real(Ts(3,1),dp) 3 2 0.00000000E+00 # Real(Ts(3,2),dp) 3 3 -8.73063064E+02 # Real(Ts(3,3),dp) Block IMTs Q= 1.87100118E+03 # (SUSY Scale) 1 1 0.00000000E+00 # Aimag(Ts(1,1)) 1 2 0.00000000E+00 # Aimag(Ts(1,2)) 1 3 0.00000000E+00 # Aimag(Ts(1,3)) 2 1 0.00000000E+00 # Aimag(Ts(2,1)) 2 2 0.00000000E+00 # Aimag(Ts(2,2)) 2 3 0.00000000E+00 # Aimag(Ts(2,3)) 3 1 0.00000000E+00 # Aimag(Ts(3,1)) 3 2 0.00000000E+00 # Aimag(Ts(3,2)) 3 3 0.00000000E+00 # Aimag(Ts(3,3)) Block Tv Q= 1.87100118E+03 # (SUSY Scale) 1 1 -8.34384515E+01 # Real(Tv(1,1),dp) 1 2 0.00000000E+00 # Real(Tv(1,2),dp) 1 3 0.00000000E+00 # Real(Tv(1,3),dp) 2 1 0.00000000E+00 # Real(Tv(2,1),dp) 2 2 -8.34147744E+01 # Real(Tv(2,2),dp) 2 3 0.00000000E+00 # Real(Tv(2,3),dp) 3 1 0.00000000E+00 # Real(Tv(3,1),dp) 3 2 0.00000000E+00 # Real(Tv(3,2),dp) 3 3 -7.68176992E+01 # Real(Tv(3,3),dp) Block IMTv Q= 1.87100118E+03 # (SUSY Scale) 1 1 0.00000000E+00 # Aimag(Tv(1,1)) 1 2 0.00000000E+00 # Aimag(Tv(1,2)) 1 3 0.00000000E+00 # Aimag(Tv(1,3)) 2 1 0.00000000E+00 # Aimag(Tv(2,1)) 2 2 0.00000000E+00 # Aimag(Tv(2,2)) 2 3 0.00000000E+00 # Aimag(Tv(2,3)) 3 1 0.00000000E+00 # Aimag(Tv(3,1)) 3 2 0.00000000E+00 # Aimag(Tv(3,2)) 3 3 0.00000000E+00 # Aimag(Tv(3,3)) Block MSQ2 Q= 1.87100118E+03 # (SUSY Scale) 1 1 5.55194632E+06 # Real(mq2(1,1),dp) 1 2 3.85188675E+02 # Real(mq2(1,2),dp) 1 3 -9.15626564E+03 # Real(mq2(1,3),dp) 2 1 3.85188675E+02 # Real(mq2(2,1),dp) 2 2 5.54913845E+06 # Real(mq2(2,2),dp) 2 3 6.31401395E+04 # Real(mq2(2,3),dp) 3 1 -9.15626564E+03 # Real(mq2(3,1),dp) 3 2 6.31401395E+04 # Real(mq2(3,2),dp) 3 3 3.49399090E+06 # Real(mq2(3,3),dp) Block IMMSQ2 Q= 1.87100118E+03 # (SUSY Scale) 1 1 0.00000000E+00 # Aimag(mq2(1,1)) 1 2 0.00000000E+00 # Aimag(mq2(1,2)) 1 3 0.00000000E+00 # Aimag(mq2(1,3)) 2 1 0.00000000E+00 # Aimag(mq2(2,1)) 2 2 0.00000000E+00 # Aimag(mq2(2,2)) 2 3 0.00000000E+00 # Aimag(mq2(2,3)) 3 1 0.00000000E+00 # Aimag(mq2(3,1)) 3 2 0.00000000E+00 # Aimag(mq2(3,2)) 3 3 0.00000000E+00 # Aimag(mq2(3,3)) Block MSL2 Q= 1.87100118E+03 # (SUSY Scale) 1 1 1.50021418E+06 # Real(ml2(1,1),dp) 1 2 0.00000000E+00 # Real(ml2(1,2),dp) 1 3 0.00000000E+00 # Real(ml2(1,3),dp) 2 1 0.00000000E+00 # Real(ml2(2,1),dp) 2 2 1.49817994E+06 # Real(ml2(2,2),dp) 2 3 0.00000000E+00 # Real(ml2(2,3),dp) 3 1 0.00000000E+00 # Real(ml2(3,1),dp) 3 2 0.00000000E+00 # Real(ml2(3,2),dp) 3 3 9.97054911E+05 # Real(ml2(3,3),dp) Block IMMSL2 Q= 1.87100118E+03 # (SUSY Scale) 1 1 0.00000000E+00 # Aimag(ml2(1,1)) 1 2 0.00000000E+00 # Aimag(ml2(1,2)) 1 3 0.00000000E+00 # Aimag(ml2(1,3)) 2 1 0.00000000E+00 # Aimag(ml2(2,1)) 2 2 0.00000000E+00 # Aimag(ml2(2,2)) 2 3 0.00000000E+00 # Aimag(ml2(2,3)) 3 1 0.00000000E+00 # Aimag(ml2(3,1)) 3 2 0.00000000E+00 # Aimag(ml2(3,2)) 3 3 0.00000000E+00 # Aimag(ml2(3,3)) Block MSS2 Q= 1.87100118E+03 # (SUSY Scale) 1 1 3.32435980E+05 # Real(mS2(1,1),dp) 1 2 0.00000000E+00 # Real(mS2(1,2),dp) 1 3 0.00000000E+00 # Real(mS2(1,3),dp) 2 1 0.00000000E+00 # Real(mS2(2,1),dp) 2 2 3.32435974E+05 # Real(mS2(2,2),dp) 2 3 0.00000000E+00 # Real(mS2(2,3),dp) 3 1 0.00000000E+00 # Real(mS2(3,1),dp) 3 2 0.00000000E+00 # Real(mS2(3,2),dp) 3 3 3.32434034E+05 # Real(mS2(3,3),dp) Block IMMSS2 Q= 1.87100118E+03 # (SUSY Scale) 1 1 0.00000000E+00 # Aimag(mS2(1,1)) 1 2 0.00000000E+00 # Aimag(mS2(1,2)) 1 3 0.00000000E+00 # Aimag(mS2(1,3)) 2 1 0.00000000E+00 # Aimag(mS2(2,1)) 2 2 0.00000000E+00 # Aimag(mS2(2,2)) 2 3 0.00000000E+00 # Aimag(mS2(2,3)) 3 1 0.00000000E+00 # Aimag(mS2(3,1)) 3 2 0.00000000E+00 # Aimag(mS2(3,2)) 3 3 0.00000000E+00 # Aimag(mS2(3,3)) Block MSU2 Q= 1.87100118E+03 # (SUSY Scale) 1 1 5.17397297E+06 # Real(mu2(1,1),dp) 1 2 6.81624140E-07 # Real(mu2(1,2),dp) 1 3 2.75735825E-03 # Real(mu2(1,3),dp) 2 1 6.81624140E-07 # Real(mu2(2,1),dp) 2 2 5.17390265E+06 # Real(mu2(2,2),dp) 2 3 1.63898182E+01 # Real(mu2(2,3),dp) 3 1 2.75735825E-03 # Real(mu2(3,1),dp) 3 2 1.63898182E+01 # Real(mu2(3,2),dp) 3 3 2.16825419E+06 # Real(mu2(3,3),dp) Block IMMSU2 Q= 1.87100118E+03 # (SUSY Scale) 1 1 0.00000000E+00 # Aimag(mu2(1,1)) 1 2 0.00000000E+00 # Aimag(mu2(1,2)) 1 3 0.00000000E+00 # Aimag(mu2(1,3)) 2 1 0.00000000E+00 # Aimag(mu2(2,1)) 2 2 0.00000000E+00 # Aimag(mu2(2,2)) 2 3 0.00000000E+00 # Aimag(mu2(2,3)) 3 1 0.00000000E+00 # Aimag(mu2(3,1)) 3 2 0.00000000E+00 # Aimag(mu2(3,2)) 3 3 0.00000000E+00 # Aimag(mu2(3,3)) Block MSD2 Q= 1.87100118E+03 # (SUSY Scale) 1 1 5.08153855E+06 # Real(md2(1,1),dp) 1 2 7.45903909E-04 # Real(md2(1,2),dp) 1 3 -7.36722890E-01 # Real(md2(1,3),dp) 2 1 7.45903909E-04 # Real(md2(2,1),dp) 2 2 5.08107807E+06 # Real(md2(2,2),dp) 2 3 9.65134192E+01 # Real(md2(2,3),dp) 3 1 -7.36722890E-01 # Real(md2(3,1),dp) 3 2 9.65134192E+01 # Real(md2(3,2),dp) 3 3 3.90141375E+06 # Real(md2(3,3),dp) Block IMMSD2 Q= 1.87100118E+03 # (SUSY Scale) 1 1 0.00000000E+00 # Aimag(md2(1,1)) 1 2 0.00000000E+00 # Aimag(md2(1,2)) 1 3 0.00000000E+00 # Aimag(md2(1,3)) 2 1 0.00000000E+00 # Aimag(md2(2,1)) 2 2 0.00000000E+00 # Aimag(md2(2,2)) 2 3 0.00000000E+00 # Aimag(md2(2,3)) 3 1 0.00000000E+00 # Aimag(md2(3,1)) 3 2 0.00000000E+00 # Aimag(md2(3,2)) 3 3 0.00000000E+00 # Aimag(md2(3,3)) Block MSV2 Q= 1.87100118E+03 # (SUSY Scale) 1 1 5.96964577E+05 # Real(mv2(1,1),dp) 1 2 0.00000000E+00 # Real(mv2(1,2),dp) 1 3 0.00000000E+00 # Real(mv2(1,3),dp) 2 1 0.00000000E+00 # Real(mv2(2,1),dp) 2 2 5.96966548E+05 # Real(mv2(2,2),dp) 2 3 0.00000000E+00 # Real(mv2(2,3),dp) 3 1 0.00000000E+00 # Real(mv2(3,1),dp) 3 2 0.00000000E+00 # Real(mv2(3,2),dp) 3 3 5.97513236E+05 # Real(mv2(3,3),dp) Block IMMSV2 Q= 1.87100118E+03 # (SUSY Scale) 1 1 0.00000000E+00 # Aimag(mv2(1,1)) 1 2 0.00000000E+00 # Aimag(mv2(1,2)) 1 3 0.00000000E+00 # Aimag(mv2(1,3)) 2 1 0.00000000E+00 # Aimag(mv2(2,1)) 2 2 0.00000000E+00 # Aimag(mv2(2,2)) 2 3 0.00000000E+00 # Aimag(mv2(2,3)) 3 1 0.00000000E+00 # Aimag(mv2(3,1)) 3 2 0.00000000E+00 # Aimag(mv2(3,2)) 3 3 0.00000000E+00 # Aimag(mv2(3,3)) Block MSE2 Q= 1.87100118E+03 # (SUSY Scale) 1 1 1.18998440E+06 # Real(me2(1,1),dp) 1 2 0.00000000E+00 # Real(me2(1,2),dp) 1 3 0.00000000E+00 # Real(me2(1,3),dp) 2 1 0.00000000E+00 # Real(me2(2,1),dp) 2 2 1.18586825E+06 # Real(me2(2,2),dp) 2 3 0.00000000E+00 # Real(me2(2,3),dp) 3 1 0.00000000E+00 # Real(me2(3,1),dp) 3 2 0.00000000E+00 # Real(me2(3,2),dp) 3 3 1.67625770E+05 # Real(me2(3,3),dp) Block IMMSE2 Q= 1.87100118E+03 # (SUSY Scale) 1 1 0.00000000E+00 # Aimag(me2(1,1)) 1 2 0.00000000E+00 # Aimag(me2(1,2)) 1 3 0.00000000E+00 # Aimag(me2(1,3)) 2 1 0.00000000E+00 # Aimag(me2(2,1)) 2 2 0.00000000E+00 # Aimag(me2(2,2)) 2 3 0.00000000E+00 # Aimag(me2(2,3)) 3 1 0.00000000E+00 # Aimag(me2(3,1)) 3 2 0.00000000E+00 # Aimag(me2(3,2)) 3 3 0.00000000E+00 # Aimag(me2(3,3)) Block AddPars Q=1.0000E00 # Additional parameters not appearing elsewhere; scale Q just a dummy 1 9.65053710E-01 # g1RBLFactor 2 4.69449555E-01 # gBLt 3 0.00000000E+00 # MassBRB 4 1.03940000E+00 # TanBetaR Block MASS # Mass spectrum # PDG code mass particle 1 1.84189538E-03 # Fd_1 3 3.49998870E-02 # Fd_2 5 4.18000000E+00 # Fd_3 2 1.13462704E-03 # Fu_1 4 5.67971178E-01 # Fu_2 6 1.73500000E+02 # Fu_3 11 5.37257675E-04 # Fe_1 13 1.11089647E-01 # Fe_2 15 1.77669000E+00 # Fe_3 12 1.70585800E-17 # Fv_1 14 6.69011874E-16 # Fv_2 16 -7.08643013E-16 # Fv_3 9000012 -4.27740765E+03 # Fv_4 9000014 4.27740765E+03 # Fv_5 9000016 -4.27740766E+03 # Fv_6 9000050 4.27740766E+03 # Fv_7 9000051 -4.27741199E+03 # Fv_8 9000052 4.27741199E+03 # Fv_9 1000001 1.90595000E+03 # Sd_1 1000003 1.98783322E+03 # Sd_2 1000005 2.23113925E+03 # Sd_3 2000001 2.23124760E+03 # Sd_4 2000003 2.46622333E+03 # Sd_5 2000005 2.46642095E+03 # Sd_6 1000002 1.53685258E+03 # Su_1 1000004 1.99559232E+03 # Su_2 1000006 2.37507280E+03 # Su_3 2000002 2.37509178E+03 # Su_4 2000004 2.46505489E+03 # Su_5 2000006 2.46525031E+03 # Su_6 1000011 5.01608049E+02 # Se_1 1000013 7.78488991E+02 # Se_2 1000015 1.02945647E+03 # Se_3 2000011 1.03058131E+03 # Se_4 2000013 1.17104156E+03 # Se_5 2000015 1.17276300E+03 # Se_6 1000012 7.48399948E+02 # Sv_1 1000014 1.04126190E+03 # Sv_2 1000016 1.04226405E+03 # Sv_3 2000012 2.20652802E+03 # Sv_4 2000014 2.20652820E+03 # Sv_5 2000016 2.20657927E+03 # Sv_6 3000012 5.65472948E+03 # Sv_7 3000014 5.65472959E+03 # Sv_8 3000016 5.65475956E+03 # Sv_9 25 1.22726747E+02 # hh_1 35 2.52321896E+02 # hh_2 225 1.76796907E+03 # hh_3 232 6.34999040E+03 # hh_4 36 1.77417073E+03 # Ah_3 236 2.15827199E+03 # Ah_4 37 1.77003420E+03 # Hpm_2 22 0.00000000E+00 # VP 23 9.11887000E+01 # VZ 21 0.00000000E+00 # VG 24 7.91754884E+01 # VWm 99 5.92889265E+03 # VZR 1000021 2.47754826E+03 # Glu 1000022 4.87992558E+02 # Chi_1 1000023 9.24173070E+02 # Chi_2 1000025 -1.46954815E+03 # Chi_3 1000035 -1.90811653E+03 # Chi_4 9000001 1.91003237E+03 # Chi_5 9000002 -5.03363328E+03 # Chi_6 9000003 6.92574061E+03 # Chi_7 1000024 9.24363552E+02 # Cha_1 1000037 1.91118649E+03 # Cha_2 Block DSQMIX Q= 1.87100118E+03 # () 1 1 -2.34401265E-03 # Real(ZD(1,1),dp) 1 2 1.61654640E-02 # Real(ZD(1,2),dp) 1 3 -5.67527082E-01 # Real(ZD(1,3),dp) 1 4 -8.24712766E-07 # Real(ZD(1,4),dp) 1 5 1.08085781E-04 # Real(ZD(1,5),dp) 1 6 -8.23192677E-01 # Real(ZD(1,6),dp) 2 1 3.86635514E-03 # Real(ZD(2,1),dp) 2 2 -2.66644592E-02 # Real(ZD(2,2),dp) 2 3 8.22753716E-01 # Real(ZD(2,3),dp) 2 4 1.06072795E-07 # Real(ZD(2,4),dp) 2 5 -1.39151850E-05 # Real(ZD(2,5),dp) 2 6 -5.67759087E-01 # Real(ZD(2,6),dp) 3 1 3.70419607E-07 # Real(ZD(3,1),dp) 3 2 2.58903996E-03 # Real(ZD(3,2),dp) 3 3 1.53487689E-04 # Real(ZD(3,3),dp) 3 4 -1.55635095E-06 # Real(ZD(3,4),dp) 3 5 9.99996634E-01 # Real(ZD(3,5),dp) 3 6 7.63237624E-05 # Real(ZD(3,6),dp) 4 1 1.36437525E-04 # Real(ZD(4,1),dp) 4 2 2.35274597E-08 # Real(ZD(4,2),dp) 4 3 -1.17111528E-06 # Real(ZD(4,3),dp) 4 4 9.99999991E-01 # Real(ZD(4,4),dp) 4 5 1.55646891E-06 # Real(ZD(4,5),dp) 4 6 -5.82288758E-07 # Real(ZD(4,6),dp) 5 1 1.13414753E-01 # Real(ZD(5,1),dp) 5 2 -9.93045129E-01 # Real(ZD(5,2),dp) 5 3 -3.14389147E-02 # Real(ZD(5,3),dp) 5 4 -1.54904142E-05 # Real(ZD(5,4),dp) 5 5 2.57568435E-03 # Real(ZD(5,5),dp) 5 6 1.85112559E-03 # Real(ZD(5,6),dp) 6 1 9.93537434E-01 # Real(ZD(6,1),dp) 6 2 1.13500457E-01 # Real(ZD(6,2),dp) 6 3 -9.51863365E-04 # Real(ZD(6,3),dp) 6 4 -1.35559085E-04 # Real(ZD(6,4),dp) 6 5 -2.94084621E-04 # Real(ZD(6,5),dp) 6 6 5.60012269E-05 # Real(ZD(6,6),dp) Block IMDSQMIX Q= 1.87100118E+03 # () 1 1 0.00000000E+00 # Aimag(ZD(1,1)) 1 2 0.00000000E+00 # Aimag(ZD(1,2)) 1 3 0.00000000E+00 # Aimag(ZD(1,3)) 1 4 0.00000000E+00 # Aimag(ZD(1,4)) 1 5 0.00000000E+00 # Aimag(ZD(1,5)) 1 6 0.00000000E+00 # Aimag(ZD(1,6)) 2 1 0.00000000E+00 # Aimag(ZD(2,1)) 2 2 0.00000000E+00 # Aimag(ZD(2,2)) 2 3 0.00000000E+00 # Aimag(ZD(2,3)) 2 4 0.00000000E+00 # Aimag(ZD(2,4)) 2 5 0.00000000E+00 # Aimag(ZD(2,5)) 2 6 0.00000000E+00 # Aimag(ZD(2,6)) 3 1 0.00000000E+00 # Aimag(ZD(3,1)) 3 2 0.00000000E+00 # Aimag(ZD(3,2)) 3 3 0.00000000E+00 # Aimag(ZD(3,3)) 3 4 0.00000000E+00 # Aimag(ZD(3,4)) 3 5 0.00000000E+00 # Aimag(ZD(3,5)) 3 6 0.00000000E+00 # Aimag(ZD(3,6)) 4 1 0.00000000E+00 # Aimag(ZD(4,1)) 4 2 0.00000000E+00 # Aimag(ZD(4,2)) 4 3 0.00000000E+00 # Aimag(ZD(4,3)) 4 4 0.00000000E+00 # Aimag(ZD(4,4)) 4 5 0.00000000E+00 # Aimag(ZD(4,5)) 4 6 0.00000000E+00 # Aimag(ZD(4,6)) 5 1 0.00000000E+00 # Aimag(ZD(5,1)) 5 2 0.00000000E+00 # Aimag(ZD(5,2)) 5 3 0.00000000E+00 # Aimag(ZD(5,3)) 5 4 0.00000000E+00 # Aimag(ZD(5,4)) 5 5 0.00000000E+00 # Aimag(ZD(5,5)) 5 6 0.00000000E+00 # Aimag(ZD(5,6)) 6 1 0.00000000E+00 # Aimag(ZD(6,1)) 6 2 0.00000000E+00 # Aimag(ZD(6,2)) 6 3 0.00000000E+00 # Aimag(ZD(6,3)) 6 4 0.00000000E+00 # Aimag(ZD(6,4)) 6 5 0.00000000E+00 # Aimag(ZD(6,5)) 6 6 0.00000000E+00 # Aimag(ZD(6,6)) Block SNUMIX Q= 1.87100118E+03 # () 1 1 -1.34301954E-17 # Real(ZV(1,1),dp) 1 2 7.22417816E-20 # Real(ZV(1,2),dp) 1 3 9.99994191E-01 # Real(ZV(1,3),dp) 1 4 2.36040889E-16 # Real(ZV(1,4),dp) 1 5 -6.86830220E-19 # Real(ZV(1,5),dp) 1 6 -1.52114889E-03 # Real(ZV(1,6),dp) 1 7 3.20167478E-16 # Real(ZV(1,7),dp) 1 8 -1.48533787E-18 # Real(ZV(1,8),dp) 1 9 -3.05018408E-03 # Real(ZV(1,9),dp) 2 1 -5.63916271E-14 # Real(ZV(2,1),dp) 2 2 9.99993190E-01 # Real(ZV(2,2),dp) 2 3 -1.09995870E-19 # Real(ZV(2,3),dp) 2 4 2.64125202E-16 # Real(ZV(2,4),dp) 2 5 -1.67109158E-03 # Real(ZV(2,5),dp) 2 6 -4.00317738E-18 # Real(ZV(2,6),dp) 2 7 4.23773972E-16 # Real(ZV(2,7),dp) 2 8 -3.29048143E-03 # Real(ZV(2,8),dp) 2 9 -3.36058492E-18 # Real(ZV(2,9),dp) 3 1 -9.99993186E-01 # Real(ZV(3,1),dp) 3 2 -5.64120182E-14 # Real(ZV(3,2),dp) 3 3 -1.55645005E-17 # Real(ZV(3,3),dp) 3 4 1.67179221E-03 # Real(ZV(3,4),dp) 3 5 1.02553521E-18 # Real(ZV(3,5),dp) 3 6 7.60590351E-20 # Real(ZV(3,6),dp) 3 7 3.29147091E-03 # Real(ZV(3,7),dp) 3 8 9.60745268E-17 # Real(ZV(3,8),dp) 3 9 7.78954821E-20 # Real(ZV(3,9),dp) 4 1 -3.53041505E-03 # Real(ZV(4,1),dp) 4 2 -1.36544352E-12 # Real(ZV(4,2),dp) 4 3 1.56311687E-16 # Real(ZV(4,3),dp) 4 4 -6.93720670E-01 # Real(ZV(4,4),dp) 4 5 -2.68489811E-10 # Real(ZV(4,5),dp) 4 6 -4.35920367E-14 # Real(ZV(4,6),dp) 4 7 -7.20235495E-01 # Real(ZV(4,7),dp) 4 8 -2.78751842E-10 # Real(ZV(4,8),dp) 4 9 -4.52610743E-14 # Real(ZV(4,9),dp) 5 1 1.36650046E-12 # Real(ZV(5,1),dp) 5 2 -3.52921640E-03 # Real(ZV(5,2),dp) 5 3 -4.60308528E-14 # Real(ZV(5,3),dp) 5 4 2.68489813E-10 # Real(ZV(5,4),dp) 5 5 -6.93720631E-01 # Real(ZV(5,5),dp) 5 6 -9.81870182E-12 # Real(ZV(5,6),dp) 5 7 2.78751834E-10 # Real(ZV(5,7),dp) 5 8 -7.20235538E-01 # Real(ZV(5,8),dp) 5 9 -1.01943335E-11 # Real(ZV(5,9),dp) 6 1 -2.21810698E-16 # Real(ZV(6,1),dp) 6 2 -4.99472357E-14 # Real(ZV(6,2),dp) 6 3 3.25214423E-03 # Real(ZV(6,3),dp) 6 4 -4.35930748E-14 # Real(ZV(6,4),dp) 6 5 -9.81894600E-12 # Real(ZV(6,5),dp) 6 6 6.93707910E-01 # Real(ZV(6,6),dp) 6 7 -4.52588498E-14 # Real(ZV(6,7),dp) 6 8 -1.01940557E-11 # Real(ZV(6,8),dp) 6 9 7.20249095E-01 # Real(ZV(6,9),dp) 7 1 -1.20475979E-17 # Real(ZV(7,1),dp) 7 2 -1.96750851E-14 # Real(ZV(7,2),dp) 7 3 1.02033071E-03 # Real(ZV(7,3),dp) 7 4 8.03983006E-15 # Real(ZV(7,4),dp) 7 5 1.31320508E-11 # Real(ZV(7,5),dp) 7 6 -7.20254831E-01 # Real(ZV(7,6),dp) 7 7 -7.74373105E-15 # Real(ZV(7,7),dp) 7 8 -1.26484887E-11 # Real(ZV(7,8),dp) 7 9 6.93708828E-01 # Real(ZV(7,9),dp) 8 1 1.07927731E-03 # Real(ZV(8,1),dp) 8 2 3.49133593E-13 # Real(ZV(8,2),dp) 8 3 -1.69072475E-17 # Real(ZV(8,3),dp) 8 4 -7.20242207E-01 # Real(ZV(8,4),dp) 8 5 -2.32800956E-10 # Real(ZV(8,5),dp) 8 6 -8.04003758E-15 # Real(ZV(8,6),dp) 8 7 6.93721845E-01 # Real(ZV(8,7),dp) 8 8 2.24228882E-10 # Real(ZV(8,8),dp) 8 9 7.74358029E-15 # Real(ZV(8,9),dp) 9 1 3.48850011E-13 # Real(ZV(9,1),dp) 9 2 -1.07909531E-03 # Real(ZV(9,2),dp) 9 3 -1.86035540E-14 # Real(ZV(9,3),dp) 9 4 -2.32800953E-10 # Real(ZV(9,4),dp) 9 5 7.20242246E-01 # Real(ZV(9,5),dp) 9 6 1.31322626E-11 # Real(ZV(9,6),dp) 9 7 2.24228883E-10 # Real(ZV(9,7),dp) 9 8 -6.93721805E-01 # Real(ZV(9,8),dp) 9 9 -1.26481794E-11 # Real(ZV(9,9),dp) Block IMSNUMIX Q= 1.87100118E+03 # () 1 1 0.00000000E+00 # Aimag(ZV(1,1)) 1 2 0.00000000E+00 # Aimag(ZV(1,2)) 1 3 0.00000000E+00 # Aimag(ZV(1,3)) 1 4 0.00000000E+00 # Aimag(ZV(1,4)) 1 5 0.00000000E+00 # Aimag(ZV(1,5)) 1 6 0.00000000E+00 # Aimag(ZV(1,6)) 1 7 0.00000000E+00 # Aimag(ZV(1,7)) 1 8 0.00000000E+00 # Aimag(ZV(1,8)) 1 9 0.00000000E+00 # Aimag(ZV(1,9)) 2 1 0.00000000E+00 # Aimag(ZV(2,1)) 2 2 0.00000000E+00 # Aimag(ZV(2,2)) 2 3 0.00000000E+00 # Aimag(ZV(2,3)) 2 4 0.00000000E+00 # Aimag(ZV(2,4)) 2 5 0.00000000E+00 # Aimag(ZV(2,5)) 2 6 0.00000000E+00 # Aimag(ZV(2,6)) 2 7 0.00000000E+00 # Aimag(ZV(2,7)) 2 8 0.00000000E+00 # Aimag(ZV(2,8)) 2 9 0.00000000E+00 # Aimag(ZV(2,9)) 3 1 0.00000000E+00 # Aimag(ZV(3,1)) 3 2 0.00000000E+00 # Aimag(ZV(3,2)) 3 3 0.00000000E+00 # Aimag(ZV(3,3)) 3 4 0.00000000E+00 # Aimag(ZV(3,4)) 3 5 0.00000000E+00 # Aimag(ZV(3,5)) 3 6 0.00000000E+00 # Aimag(ZV(3,6)) 3 7 0.00000000E+00 # Aimag(ZV(3,7)) 3 8 0.00000000E+00 # Aimag(ZV(3,8)) 3 9 0.00000000E+00 # Aimag(ZV(3,9)) 4 1 0.00000000E+00 # Aimag(ZV(4,1)) 4 2 0.00000000E+00 # Aimag(ZV(4,2)) 4 3 0.00000000E+00 # Aimag(ZV(4,3)) 4 4 0.00000000E+00 # Aimag(ZV(4,4)) 4 5 0.00000000E+00 # Aimag(ZV(4,5)) 4 6 0.00000000E+00 # Aimag(ZV(4,6)) 4 7 0.00000000E+00 # Aimag(ZV(4,7)) 4 8 0.00000000E+00 # Aimag(ZV(4,8)) 4 9 0.00000000E+00 # Aimag(ZV(4,9)) 5 1 0.00000000E+00 # Aimag(ZV(5,1)) 5 2 0.00000000E+00 # Aimag(ZV(5,2)) 5 3 0.00000000E+00 # Aimag(ZV(5,3)) 5 4 0.00000000E+00 # Aimag(ZV(5,4)) 5 5 0.00000000E+00 # Aimag(ZV(5,5)) 5 6 0.00000000E+00 # Aimag(ZV(5,6)) 5 7 0.00000000E+00 # Aimag(ZV(5,7)) 5 8 0.00000000E+00 # Aimag(ZV(5,8)) 5 9 0.00000000E+00 # Aimag(ZV(5,9)) 6 1 0.00000000E+00 # Aimag(ZV(6,1)) 6 2 0.00000000E+00 # Aimag(ZV(6,2)) 6 3 0.00000000E+00 # Aimag(ZV(6,3)) 6 4 0.00000000E+00 # Aimag(ZV(6,4)) 6 5 0.00000000E+00 # Aimag(ZV(6,5)) 6 6 0.00000000E+00 # Aimag(ZV(6,6)) 6 7 0.00000000E+00 # Aimag(ZV(6,7)) 6 8 0.00000000E+00 # Aimag(ZV(6,8)) 6 9 0.00000000E+00 # Aimag(ZV(6,9)) 7 1 0.00000000E+00 # Aimag(ZV(7,1)) 7 2 0.00000000E+00 # Aimag(ZV(7,2)) 7 3 0.00000000E+00 # Aimag(ZV(7,3)) 7 4 0.00000000E+00 # Aimag(ZV(7,4)) 7 5 0.00000000E+00 # Aimag(ZV(7,5)) 7 6 0.00000000E+00 # Aimag(ZV(7,6)) 7 7 0.00000000E+00 # Aimag(ZV(7,7)) 7 8 0.00000000E+00 # Aimag(ZV(7,8)) 7 9 0.00000000E+00 # Aimag(ZV(7,9)) 8 1 0.00000000E+00 # Aimag(ZV(8,1)) 8 2 0.00000000E+00 # Aimag(ZV(8,2)) 8 3 0.00000000E+00 # Aimag(ZV(8,3)) 8 4 0.00000000E+00 # Aimag(ZV(8,4)) 8 5 0.00000000E+00 # Aimag(ZV(8,5)) 8 6 0.00000000E+00 # Aimag(ZV(8,6)) 8 7 0.00000000E+00 # Aimag(ZV(8,7)) 8 8 0.00000000E+00 # Aimag(ZV(8,8)) 8 9 0.00000000E+00 # Aimag(ZV(8,9)) 9 1 0.00000000E+00 # Aimag(ZV(9,1)) 9 2 0.00000000E+00 # Aimag(ZV(9,2)) 9 3 0.00000000E+00 # Aimag(ZV(9,3)) 9 4 0.00000000E+00 # Aimag(ZV(9,4)) 9 5 0.00000000E+00 # Aimag(ZV(9,5)) 9 6 0.00000000E+00 # Aimag(ZV(9,6)) 9 7 0.00000000E+00 # Aimag(ZV(9,7)) 9 8 0.00000000E+00 # Aimag(ZV(9,8)) 9 9 0.00000000E+00 # Aimag(ZV(9,9)) Block USQMIX Q= 1.87100118E+03 # () 1 1 -1.40777074E-03 # Real(ZU(1,1),dp) 1 2 9.70818354E-03 # Real(ZU(1,2),dp) 1 3 -2.70921680E-01 # Real(ZU(1,3),dp) 1 4 5.41359363E-10 # Real(ZU(1,4),dp) 1 5 3.21103948E-06 # Real(ZU(1,5),dp) 1 6 -9.62551408E-01 # Real(ZU(1,6),dp) 2 1 4.21509838E-03 # Real(ZU(2,1),dp) 2 2 -2.90697064E-02 # Real(ZU(2,2),dp) 2 3 9.62104250E-01 # Real(ZU(2,3),dp) 2 4 2.94689627E-09 # Real(ZU(2,4),dp) 2 5 1.75696144E-05 # Real(ZU(2,5),dp) 2 6 -2.71095180E-01 # Real(ZU(2,6),dp) 3 1 1.38764706E-03 # Real(ZU(3,1),dp) 3 2 -5.99174584E-03 # Real(ZU(3,2),dp) 3 3 -1.73626920E-04 # Real(ZU(3,3),dp) 3 4 -7.97250314E-08 # Real(ZU(3,4),dp) 3 5 -9.99981071E-01 # Real(ZU(3,5),dp) 3 6 -1.69280715E-05 # Real(ZU(3,6),dp) 4 1 -1.19500812E-05 # Real(ZU(4,1),dp) 4 2 -2.77267880E-06 # Real(ZU(4,2),dp) 4 3 -2.91602238E-08 # Real(ZU(4,3),dp) 4 4 -1.00000000E+00 # Real(ZU(4,4),dp) 4 5 7.97623439E-08 # Real(ZU(4,5),dp) 4 6 -2.84209907E-09 # Real(ZU(4,6),dp) 5 1 -1.10529522E-01 # Real(ZU(5,1),dp) 5 2 9.93371995E-01 # Real(ZU(5,2),dp) 5 3 3.09155805E-02 # Real(ZU(5,3),dp) 5 4 -1.43485784E-06 # Real(ZU(5,4),dp) 5 5 -6.11091697E-03 # Real(ZU(5,5),dp) 5 6 1.47910776E-03 # Real(ZU(5,6),dp) 6 1 -9.93861937E-01 # Real(ZU(6,1),dp) 6 2 -1.10620440E-01 # Real(ZU(6,2),dp) 6 3 1.02573040E-03 # Real(ZU(6,3),dp) 6 4 1.21833586E-05 # Real(ZU(6,4),dp) 6 5 -7.16512522E-04 # Real(ZU(6,5),dp) 6 6 4.91519874E-05 # Real(ZU(6,6),dp) Block IMUSQMIX Q= 1.87100118E+03 # () 1 1 0.00000000E+00 # Aimag(ZU(1,1)) 1 2 0.00000000E+00 # Aimag(ZU(1,2)) 1 3 0.00000000E+00 # Aimag(ZU(1,3)) 1 4 0.00000000E+00 # Aimag(ZU(1,4)) 1 5 0.00000000E+00 # Aimag(ZU(1,5)) 1 6 0.00000000E+00 # Aimag(ZU(1,6)) 2 1 0.00000000E+00 # Aimag(ZU(2,1)) 2 2 0.00000000E+00 # Aimag(ZU(2,2)) 2 3 0.00000000E+00 # Aimag(ZU(2,3)) 2 4 0.00000000E+00 # Aimag(ZU(2,4)) 2 5 0.00000000E+00 # Aimag(ZU(2,5)) 2 6 0.00000000E+00 # Aimag(ZU(2,6)) 3 1 0.00000000E+00 # Aimag(ZU(3,1)) 3 2 0.00000000E+00 # Aimag(ZU(3,2)) 3 3 0.00000000E+00 # Aimag(ZU(3,3)) 3 4 0.00000000E+00 # Aimag(ZU(3,4)) 3 5 0.00000000E+00 # Aimag(ZU(3,5)) 3 6 0.00000000E+00 # Aimag(ZU(3,6)) 4 1 0.00000000E+00 # Aimag(ZU(4,1)) 4 2 0.00000000E+00 # Aimag(ZU(4,2)) 4 3 0.00000000E+00 # Aimag(ZU(4,3)) 4 4 0.00000000E+00 # Aimag(ZU(4,4)) 4 5 0.00000000E+00 # Aimag(ZU(4,5)) 4 6 0.00000000E+00 # Aimag(ZU(4,6)) 5 1 0.00000000E+00 # Aimag(ZU(5,1)) 5 2 0.00000000E+00 # Aimag(ZU(5,2)) 5 3 0.00000000E+00 # Aimag(ZU(5,3)) 5 4 0.00000000E+00 # Aimag(ZU(5,4)) 5 5 0.00000000E+00 # Aimag(ZU(5,5)) 5 6 0.00000000E+00 # Aimag(ZU(5,6)) 6 1 0.00000000E+00 # Aimag(ZU(6,1)) 6 2 0.00000000E+00 # Aimag(ZU(6,2)) 6 3 0.00000000E+00 # Aimag(ZU(6,3)) 6 4 0.00000000E+00 # Aimag(ZU(6,4)) 6 5 0.00000000E+00 # Aimag(ZU(6,5)) 6 6 0.00000000E+00 # Aimag(ZU(6,6)) Block SELMIX Q= 1.87100118E+03 # () 1 1 -0.00000000E+00 # Real(ZE(1,1),dp) 1 2 -0.00000000E+00 # Real(ZE(1,2),dp) 1 3 -4.42235115E-01 # Real(ZE(1,3),dp) 1 4 -0.00000000E+00 # Real(ZE(1,4),dp) 1 5 -0.00000000E+00 # Real(ZE(1,5),dp) 1 6 -8.96899160E-01 # Real(ZE(1,6),dp) 2 1 0.00000000E+00 # Real(ZE(2,1),dp) 2 2 0.00000000E+00 # Real(ZE(2,2),dp) 2 3 -8.96899160E-01 # Real(ZE(2,3),dp) 2 4 0.00000000E+00 # Real(ZE(2,4),dp) 2 5 0.00000000E+00 # Real(ZE(2,5),dp) 2 6 4.42235115E-01 # Real(ZE(2,6),dp) 3 1 -0.00000000E+00 # Real(ZE(3,1),dp) 3 2 -9.99635803E-01 # Real(ZE(3,2),dp) 3 3 -0.00000000E+00 # Real(ZE(3,3),dp) 3 4 -0.00000000E+00 # Real(ZE(3,4),dp) 3 5 -2.69863129E-02 # Real(ZE(3,5),dp) 3 6 -0.00000000E+00 # Real(ZE(3,6),dp) 4 1 9.99999992E-01 # Real(ZE(4,1),dp) 4 2 0.00000000E+00 # Real(ZE(4,2),dp) 4 3 0.00000000E+00 # Real(ZE(4,3),dp) 4 4 1.29773130E-04 # Real(ZE(4,4),dp) 4 5 0.00000000E+00 # Real(ZE(4,5),dp) 4 6 0.00000000E+00 # Real(ZE(4,6),dp) 5 1 0.00000000E+00 # Real(ZE(5,1),dp) 5 2 2.69863129E-02 # Real(ZE(5,2),dp) 5 3 0.00000000E+00 # Real(ZE(5,3),dp) 5 4 0.00000000E+00 # Real(ZE(5,4),dp) 5 5 -9.99635803E-01 # Real(ZE(5,5),dp) 5 6 0.00000000E+00 # Real(ZE(5,6),dp) 6 1 -1.29773130E-04 # Real(ZE(6,1),dp) 6 2 0.00000000E+00 # Real(ZE(6,2),dp) 6 3 0.00000000E+00 # Real(ZE(6,3),dp) 6 4 9.99999992E-01 # Real(ZE(6,4),dp) 6 5 0.00000000E+00 # Real(ZE(6,5),dp) 6 6 0.00000000E+00 # Real(ZE(6,6),dp) Block IMSELMIX Q= 1.87100118E+03 # () 1 1 0.00000000E+00 # Aimag(ZE(1,1)) 1 2 0.00000000E+00 # Aimag(ZE(1,2)) 1 3 0.00000000E+00 # Aimag(ZE(1,3)) 1 4 0.00000000E+00 # Aimag(ZE(1,4)) 1 5 0.00000000E+00 # Aimag(ZE(1,5)) 1 6 0.00000000E+00 # Aimag(ZE(1,6)) 2 1 0.00000000E+00 # Aimag(ZE(2,1)) 2 2 0.00000000E+00 # Aimag(ZE(2,2)) 2 3 0.00000000E+00 # Aimag(ZE(2,3)) 2 4 0.00000000E+00 # Aimag(ZE(2,4)) 2 5 0.00000000E+00 # Aimag(ZE(2,5)) 2 6 0.00000000E+00 # Aimag(ZE(2,6)) 3 1 0.00000000E+00 # Aimag(ZE(3,1)) 3 2 0.00000000E+00 # Aimag(ZE(3,2)) 3 3 0.00000000E+00 # Aimag(ZE(3,3)) 3 4 0.00000000E+00 # Aimag(ZE(3,4)) 3 5 0.00000000E+00 # Aimag(ZE(3,5)) 3 6 0.00000000E+00 # Aimag(ZE(3,6)) 4 1 0.00000000E+00 # Aimag(ZE(4,1)) 4 2 0.00000000E+00 # Aimag(ZE(4,2)) 4 3 0.00000000E+00 # Aimag(ZE(4,3)) 4 4 0.00000000E+00 # Aimag(ZE(4,4)) 4 5 0.00000000E+00 # Aimag(ZE(4,5)) 4 6 0.00000000E+00 # Aimag(ZE(4,6)) 5 1 0.00000000E+00 # Aimag(ZE(5,1)) 5 2 0.00000000E+00 # Aimag(ZE(5,2)) 5 3 0.00000000E+00 # Aimag(ZE(5,3)) 5 4 0.00000000E+00 # Aimag(ZE(5,4)) 5 5 0.00000000E+00 # Aimag(ZE(5,5)) 5 6 0.00000000E+00 # Aimag(ZE(5,6)) 6 1 0.00000000E+00 # Aimag(ZE(6,1)) 6 2 0.00000000E+00 # Aimag(ZE(6,2)) 6 3 0.00000000E+00 # Aimag(ZE(6,3)) 6 4 0.00000000E+00 # Aimag(ZE(6,4)) 6 5 0.00000000E+00 # Aimag(ZE(6,5)) 6 6 0.00000000E+00 # Aimag(ZE(6,6)) Block SCALARMIX Q= 1.87100118E+03 # () 1 1 2.62629234E-02 # ZH(1,1) 1 2 9.99404551E-01 # ZH(1,2) 1 3 1.24251359E-02 # ZH(1,3) 1 4 1.86123160E-02 # ZH(1,4) 2 1 5.87738156E-04 # ZH(2,1) 2 2 2.18576381E-02 # ZH(2,2) 2 3 -7.19431711E-01 # ZH(2,3) 2 4 -6.94218922E-01 # ZH(2,4) 3 1 -9.99654884E-01 # ZH(3,1) 3 2 2.62684193E-02 # ZH(3,2) 3 3 -2.09865461E-04 # ZH(3,3) 3 4 1.98228757E-04 # ZH(3,4) 4 1 1.63115606E-04 # ZH(4,1) 4 2 -4.77045706E-03 # ZH(4,2) 4 3 -6.94452003E-01 # ZH(4,3) 4 4 7.19523197E-01 # ZH(4,4) Block PSEUDOSCALARMIX Q= 1.87100118E+03 # () 1 1 -2.61270384E-02 # ZA(1,1) 1 2 9.99643363E-01 # ZA(1,2) 1 3 -3.82808215E-03 # ZA(1,3) 1 4 3.98384009E-03 # ZA(1,4) 2 1 1.44356707E-04 # ZA(2,1) 2 2 -5.52307378E-03 # ZA(2,2) 2 3 -6.93312227E-01 # ZA(2,3) 2 4 7.20616146E-01 # ZA(2,4) 3 1 -9.99658620E-01 # ZA(3,1) 3 2 -2.61274371E-02 # ZA(3,2) 3 3 -1.96546661E-05 # ZA(3,3) 3 4 -1.89048726E-05 # ZA(3,4) 4 1 2.71709656E-05 # ZA(4,1) 4 2 4.17856953E-06 # ZA(4,2) 4 3 -7.20627158E-01 # ZA(4,3) 4 4 -6.93322795E-01 # ZA(4,4) Block CHARGEMIX Q= 1.87100118E+03 # () 1 1 2.61275899E-02 # ZP(1,1) 1 2 -9.99658616E-01 # ZP(1,2) 2 1 -9.99658616E-01 # ZP(2,1) 2 2 -2.61275899E-02 # ZP(2,2) Block NMIX Q= 1.87100118E+03 # () 1 1 6.17769578E-01 # Real(ZN(1,1),dp) 1 2 -1.47749578E-03 # Real(ZN(1,2),dp) 1 3 2.53206455E-02 # Real(ZN(1,3),dp) 1 4 -7.28422544E-03 # Real(ZN(1,4),dp) 1 5 7.85908389E-01 # Real(ZN(1,5),dp) 1 6 2.54635004E-03 # Real(ZN(1,6),dp) 1 7 -2.42692394E-03 # Real(ZN(1,7),dp) 2 1 1.87213038E-03 # Real(ZN(2,1),dp) 2 2 9.98203249E-01 # Real(ZN(2,2),dp) 2 3 -5.34963329E-02 # Real(ZN(2,3),dp) 2 4 2.68185281E-02 # Real(ZN(2,4),dp) 2 5 2.37781073E-03 # Real(ZN(2,5),dp) 2 6 -1.07838522E-04 # Real(ZN(2,6),dp) 2 7 1.05905304E-04 # Real(ZN(2,7),dp) 3 1 1.32446565E-02 # Real(ZN(3,1),dp) 3 2 -1.61992587E-05 # Real(ZN(3,2),dp) 3 3 -6.77554197E-04 # Real(ZN(3,3),dp) 3 4 -5.11389561E-04 # Real(ZN(3,4),dp) 3 5 -1.06347397E-02 # Real(ZN(3,5),dp) 3 6 7.27762085E-01 # Real(ZN(3,6),dp) 3 7 6.85618778E-01 # Real(ZN(3,7),dp) 4 1 9.98737343E-03 # Real(ZN(4,1),dp) 4 2 -1.89062532E-02 # Real(ZN(4,2),dp) 4 3 -7.06609582E-01 # Real(ZN(4,3),dp) 4 4 -7.07213985E-01 # Real(ZN(4,4),dp) 4 5 8.30288214E-03 # Real(ZN(4,5),dp) 4 6 2.74065142E-03 # Real(ZN(4,6),dp) 4 7 -4.19950128E-03 # Real(ZN(4,7),dp) 5 1 -1.45239137E-02 # Real(ZN(5,1),dp) 5 2 5.68386955E-02 # Real(ZN(5,2),dp) 5 3 7.05119956E-01 # Real(ZN(5,3),dp) 5 4 -7.06421954E-01 # Real(ZN(5,4),dp) 5 5 -1.77601616E-02 # Real(ZN(5,5),dp) 5 6 2.90285390E-03 # Real(ZN(5,6),dp) 5 7 -2.90493288E-03 # Real(ZN(5,7),dp) 6 1 -5.77038072E-01 # Real(ZN(6,1),dp) 6 2 -6.56461220E-05 # Real(ZN(6,2),dp) 6 3 -1.98965079E-03 # Real(ZN(6,3),dp) 6 4 -5.53922921E-03 # Real(ZN(6,4),dp) 6 5 4.56620839E-01 # Real(ZN(6,5),dp) 6 6 -4.55137740E-01 # Real(ZN(6,6),dp) 6 7 5.01337674E-01 # Real(ZN(6,7),dp) 7 1 5.33758554E-01 # Real(ZN(7,1),dp) 7 2 3.87135284E-05 # Real(ZN(7,2),dp) 7 3 1.15590176E-03 # Real(ZN(7,3),dp) 7 4 -3.62824947E-03 # Real(ZN(7,4),dp) 7 5 -4.16343969E-01 # Real(ZN(7,5),dp) 7 6 -5.13020031E-01 # Real(ZN(7,6),dp) 7 7 5.27783528E-01 # Real(ZN(7,7),dp) Block IMNMIX Q= 1.87100118E+03 # () 1 1 0.00000000E+00 # Aimag(ZN(1,1)) 1 2 0.00000000E+00 # Aimag(ZN(1,2)) 1 3 0.00000000E+00 # Aimag(ZN(1,3)) 1 4 0.00000000E+00 # Aimag(ZN(1,4)) 1 5 0.00000000E+00 # Aimag(ZN(1,5)) 1 6 0.00000000E+00 # Aimag(ZN(1,6)) 1 7 0.00000000E+00 # Aimag(ZN(1,7)) 2 1 0.00000000E+00 # Aimag(ZN(2,1)) 2 2 0.00000000E+00 # Aimag(ZN(2,2)) 2 3 0.00000000E+00 # Aimag(ZN(2,3)) 2 4 0.00000000E+00 # Aimag(ZN(2,4)) 2 5 0.00000000E+00 # Aimag(ZN(2,5)) 2 6 0.00000000E+00 # Aimag(ZN(2,6)) 2 7 0.00000000E+00 # Aimag(ZN(2,7)) 3 1 -0.00000000E+00 # Aimag(ZN(3,1)) 3 2 0.00000000E+00 # Aimag(ZN(3,2)) 3 3 0.00000000E+00 # Aimag(ZN(3,3)) 3 4 0.00000000E+00 # Aimag(ZN(3,4)) 3 5 0.00000000E+00 # Aimag(ZN(3,5)) 3 6 -0.00000000E+00 # Aimag(ZN(3,6)) 3 7 -0.00000000E+00 # Aimag(ZN(3,7)) 4 1 -0.00000000E+00 # Aimag(ZN(4,1)) 4 2 0.00000000E+00 # Aimag(ZN(4,2)) 4 3 0.00000000E+00 # Aimag(ZN(4,3)) 4 4 0.00000000E+00 # Aimag(ZN(4,4)) 4 5 -0.00000000E+00 # Aimag(ZN(4,5)) 4 6 -0.00000000E+00 # Aimag(ZN(4,6)) 4 7 0.00000000E+00 # Aimag(ZN(4,7)) 5 1 0.00000000E+00 # Aimag(ZN(5,1)) 5 2 0.00000000E+00 # Aimag(ZN(5,2)) 5 3 0.00000000E+00 # Aimag(ZN(5,3)) 5 4 0.00000000E+00 # Aimag(ZN(5,4)) 5 5 0.00000000E+00 # Aimag(ZN(5,5)) 5 6 0.00000000E+00 # Aimag(ZN(5,6)) 5 7 0.00000000E+00 # Aimag(ZN(5,7)) 6 1 0.00000000E+00 # Aimag(ZN(6,1)) 6 2 0.00000000E+00 # Aimag(ZN(6,2)) 6 3 0.00000000E+00 # Aimag(ZN(6,3)) 6 4 0.00000000E+00 # Aimag(ZN(6,4)) 6 5 -0.00000000E+00 # Aimag(ZN(6,5)) 6 6 0.00000000E+00 # Aimag(ZN(6,6)) 6 7 -0.00000000E+00 # Aimag(ZN(6,7)) 7 1 0.00000000E+00 # Aimag(ZN(7,1)) 7 2 0.00000000E+00 # Aimag(ZN(7,2)) 7 3 0.00000000E+00 # Aimag(ZN(7,3)) 7 4 0.00000000E+00 # Aimag(ZN(7,4)) 7 5 0.00000000E+00 # Aimag(ZN(7,5)) 7 6 0.00000000E+00 # Aimag(ZN(7,6)) 7 7 0.00000000E+00 # Aimag(ZN(7,7)) Block UMIX Q= 1.87100118E+03 # () 1 1 9.97120779E-01 # Real(UM(1,1),dp) 1 2 -7.58297560E-02 # Real(UM(1,2),dp) 2 1 7.58297560E-02 # Real(UM(2,1),dp) 2 2 9.97120779E-01 # Real(UM(2,2),dp) Block IMUMIX Q= 1.87100118E+03 # () 1 1 -0.00000000E+00 # Aimag(UM(1,1)) 1 2 -0.00000000E+00 # Aimag(UM(1,2)) 2 1 -0.00000000E+00 # Aimag(UM(2,1)) 2 2 -0.00000000E+00 # Aimag(UM(2,2)) Block VMIX Q= 1.87100118E+03 # () 1 1 9.99270529E-01 # Real(UP(1,1),dp) 1 2 -3.81891315E-02 # Real(UP(1,2),dp) 2 1 3.81891315E-02 # Real(UP(2,1),dp) 2 2 9.99270529E-01 # Real(UP(2,2),dp) Block IMVMIX Q= 1.87100118E+03 # () 1 1 0.00000000E+00 # Aimag(UP(1,1)) 1 2 0.00000000E+00 # Aimag(UP(1,2)) 2 1 0.00000000E+00 # Aimag(UP(2,1)) 2 2 0.00000000E+00 # Aimag(UP(2,2)) Block NEUTRINOMIX Q= 1.87100118E+03 # () 1 1 -4.17231691E-18 # Real(ZFV(1,1),dp) 1 2 -6.35898092E-17 # Real(ZFV(1,2),dp) 1 3 -9.99998483E-01 # Real(ZFV(1,3),dp) 1 4 2.12838109E-21 # Real(ZFV(1,4),dp) 1 5 -1.35525586E-20 # Real(ZFV(1,5),dp) 1 6 -9.21197885E-21 # Real(ZFV(1,6),dp) 1 7 -1.11891652E-19 # Real(ZFV(1,7),dp) 1 8 1.11615262E-19 # Real(ZFV(1,8),dp) 1 9 1.74200335E-03 # Real(ZFV(1,9),dp) 2 1 -2.28823243E-01 # Real(ZFV(2,1),dp) 2 2 9.73466421E-01 # Real(ZFV(2,2),dp) 2 3 -6.10411086E-17 # Real(ZFV(2,3),dp) 2 4 1.30941509E-16 # Real(ZFV(2,4),dp) 2 5 5.91372656E-22 # Real(ZFV(2,5),dp) 2 6 -5.83323205E-37 # Real(ZFV(2,6),dp) 2 7 3.99684440E-04 # Real(ZFV(2,7),dp) 2 8 -1.70033835E-03 # Real(ZFV(2,8),dp) 2 9 1.07811399E-19 # Real(ZFV(2,9),dp) 3 1 9.73466421E-01 # Real(ZFV(3,1),dp) 3 2 2.28823243E-01 # Real(ZFV(3,2),dp) 3 3 -1.83797165E-17 # Real(ZFV(3,3),dp) 3 4 1.03044717E-16 # Real(ZFV(3,4),dp) 3 5 1.99961285E-21 # Real(ZFV(3,5),dp) 3 6 -1.84397143E-37 # Real(ZFV(3,6),dp) 3 7 -1.70034904E-03 # Real(ZFV(3,7),dp) 3 8 -3.99681926E-04 # Real(ZFV(3,8),dp) 3 9 3.27678587E-20 # Real(ZFV(3,9),dp) 4 1 2.70279294E-23 # Real(ZFV(4,1),dp) 4 2 -1.26114342E-15 # Real(ZFV(4,2),dp) 4 3 1.23178238E-03 # Real(ZFV(4,3),dp) 4 4 5.53594319E-23 # Real(ZFV(4,4),dp) 4 5 7.22021859E-13 # Real(ZFV(4,5),dp) 4 6 -7.07106781E-01 # Real(ZFV(4,6),dp) 4 7 -8.98861336E-33 # Real(ZFV(4,7),dp) 4 8 -7.22020778E-13 # Real(ZFV(4,8),dp) 4 9 7.07105708E-01 # Real(ZFV(4,9),dp) 5 1 -2.70279294E-23 # Real(ZFV(5,1),dp) 5 2 1.26114342E-15 # Real(ZFV(5,2),dp) 5 3 -1.23178238E-03 # Real(ZFV(5,3),dp) 5 4 5.53594318E-23 # Real(ZFV(5,4),dp) 5 5 7.22021858E-13 # Real(ZFV(5,5),dp) 5 6 -7.07106781E-01 # Real(ZFV(5,6),dp) 5 7 -3.16543204E-32 # Real(ZFV(5,7),dp) 5 8 7.22020777E-13 # Real(ZFV(5,8),dp) 5 9 -7.07105708E-01 # Real(ZFV(5,9),dp) 6 1 6.55295744E-20 # Real(ZFV(6,1),dp) 6 2 1.23509031E-03 # Real(ZFV(6,2),dp) 6 3 1.25777450E-15 # Real(ZFV(6,3),dp) 6 4 -1.27792411E-20 # Real(ZFV(6,4),dp) 6 5 -7.07106781E-01 # Real(ZFV(6,5),dp) 6 6 -7.22021859E-13 # Real(ZFV(6,6),dp) 6 7 8.80295493E-21 # Real(ZFV(6,7),dp) 6 8 7.07105703E-01 # Real(ZFV(6,8),dp) 6 9 7.22020784E-13 # Real(ZFV(6,9),dp) 7 1 -6.54600502E-20 # Real(ZFV(7,1),dp) 7 2 -1.23509031E-03 # Real(ZFV(7,2),dp) 7 3 -1.25775534E-15 # Real(ZFV(7,3),dp) 7 4 2.69989902E-20 # Real(ZFV(7,4),dp) 7 5 -7.07106781E-01 # Real(ZFV(7,5),dp) 7 6 -7.22021858E-13 # Real(ZFV(7,6),dp) 7 7 3.10003456E-20 # Real(ZFV(7,7),dp) 7 8 -7.07105703E-01 # Real(ZFV(7,8),dp) 7 9 -7.22020783E-13 # Real(ZFV(7,9),dp) 8 1 1.23509808E-03 # Real(ZFV(8,1),dp) 8 2 7.95720584E-17 # Real(ZFV(8,2),dp) 8 3 -7.85198054E-17 # Real(ZFV(8,3),dp) 8 4 -7.07106781E-01 # Real(ZFV(8,4),dp) 8 5 1.27918060E-20 # Real(ZFV(8,5),dp) 8 6 2.91832194E-38 # Real(ZFV(8,6),dp) 8 7 7.07105703E-01 # Real(ZFV(8,7),dp) 8 8 -1.44209517E-19 # Real(ZFV(8,8),dp) 8 9 -1.38352391E-22 # Real(ZFV(8,9),dp) 9 1 -1.23509808E-03 # Real(ZFV(9,1),dp) 9 2 7.74371874E-17 # Real(ZFV(9,2),dp) 9 3 7.85448043E-17 # Real(ZFV(9,3),dp) 9 4 -7.07106781E-01 # Real(ZFV(9,4),dp) 9 5 -2.70115543E-20 # Real(ZFV(9,5),dp) 9 6 3.20320930E-38 # Real(ZFV(9,6),dp) 9 7 -7.07105703E-01 # Real(ZFV(9,7),dp) 9 8 -1.62449166E-19 # Real(ZFV(9,8),dp) 9 9 1.43538078E-22 # Real(ZFV(9,9),dp) Block IMNEUTRINOMIX Q= 1.87100118E+03 # () 1 1 0.00000000E+00 # Aimag(ZFV(1,1)) 1 2 0.00000000E+00 # Aimag(ZFV(1,2)) 1 3 0.00000000E+00 # Aimag(ZFV(1,3)) 1 4 0.00000000E+00 # Aimag(ZFV(1,4)) 1 5 0.00000000E+00 # Aimag(ZFV(1,5)) 1 6 0.00000000E+00 # Aimag(ZFV(1,6)) 1 7 0.00000000E+00 # Aimag(ZFV(1,7)) 1 8 0.00000000E+00 # Aimag(ZFV(1,8)) 1 9 0.00000000E+00 # Aimag(ZFV(1,9)) 2 1 0.00000000E+00 # Aimag(ZFV(2,1)) 2 2 0.00000000E+00 # Aimag(ZFV(2,2)) 2 3 0.00000000E+00 # Aimag(ZFV(2,3)) 2 4 0.00000000E+00 # Aimag(ZFV(2,4)) 2 5 0.00000000E+00 # Aimag(ZFV(2,5)) 2 6 0.00000000E+00 # Aimag(ZFV(2,6)) 2 7 0.00000000E+00 # Aimag(ZFV(2,7)) 2 8 0.00000000E+00 # Aimag(ZFV(2,8)) 2 9 0.00000000E+00 # Aimag(ZFV(2,9)) 3 1 -0.00000000E+00 # Aimag(ZFV(3,1)) 3 2 -0.00000000E+00 # Aimag(ZFV(3,2)) 3 3 0.00000000E+00 # Aimag(ZFV(3,3)) 3 4 -0.00000000E+00 # Aimag(ZFV(3,4)) 3 5 -0.00000000E+00 # Aimag(ZFV(3,5)) 3 6 0.00000000E+00 # Aimag(ZFV(3,6)) 3 7 0.00000000E+00 # Aimag(ZFV(3,7)) 3 8 0.00000000E+00 # Aimag(ZFV(3,8)) 3 9 -0.00000000E+00 # Aimag(ZFV(3,9)) 4 1 -0.00000000E+00 # Aimag(ZFV(4,1)) 4 2 0.00000000E+00 # Aimag(ZFV(4,2)) 4 3 -0.00000000E+00 # Aimag(ZFV(4,3)) 4 4 -0.00000000E+00 # Aimag(ZFV(4,4)) 4 5 -0.00000000E+00 # Aimag(ZFV(4,5)) 4 6 0.00000000E+00 # Aimag(ZFV(4,6)) 4 7 0.00000000E+00 # Aimag(ZFV(4,7)) 4 8 0.00000000E+00 # Aimag(ZFV(4,8)) 4 9 -0.00000000E+00 # Aimag(ZFV(4,9)) 5 1 0.00000000E+00 # Aimag(ZFV(5,1)) 5 2 0.00000000E+00 # Aimag(ZFV(5,2)) 5 3 0.00000000E+00 # Aimag(ZFV(5,3)) 5 4 0.00000000E+00 # Aimag(ZFV(5,4)) 5 5 0.00000000E+00 # Aimag(ZFV(5,5)) 5 6 0.00000000E+00 # Aimag(ZFV(5,6)) 5 7 0.00000000E+00 # Aimag(ZFV(5,7)) 5 8 0.00000000E+00 # Aimag(ZFV(5,8)) 5 9 0.00000000E+00 # Aimag(ZFV(5,9)) 6 1 -0.00000000E+00 # Aimag(ZFV(6,1)) 6 2 -0.00000000E+00 # Aimag(ZFV(6,2)) 6 3 -0.00000000E+00 # Aimag(ZFV(6,3)) 6 4 0.00000000E+00 # Aimag(ZFV(6,4)) 6 5 0.00000000E+00 # Aimag(ZFV(6,5)) 6 6 0.00000000E+00 # Aimag(ZFV(6,6)) 6 7 -0.00000000E+00 # Aimag(ZFV(6,7)) 6 8 -0.00000000E+00 # Aimag(ZFV(6,8)) 6 9 -0.00000000E+00 # Aimag(ZFV(6,9)) 7 1 0.00000000E+00 # Aimag(ZFV(7,1)) 7 2 0.00000000E+00 # Aimag(ZFV(7,2)) 7 3 0.00000000E+00 # Aimag(ZFV(7,3)) 7 4 0.00000000E+00 # Aimag(ZFV(7,4)) 7 5 0.00000000E+00 # Aimag(ZFV(7,5)) 7 6 0.00000000E+00 # Aimag(ZFV(7,6)) 7 7 0.00000000E+00 # Aimag(ZFV(7,7)) 7 8 0.00000000E+00 # Aimag(ZFV(7,8)) 7 9 0.00000000E+00 # Aimag(ZFV(7,9)) 8 1 -0.00000000E+00 # Aimag(ZFV(8,1)) 8 2 -0.00000000E+00 # Aimag(ZFV(8,2)) 8 3 0.00000000E+00 # Aimag(ZFV(8,3)) 8 4 0.00000000E+00 # Aimag(ZFV(8,4)) 8 5 -0.00000000E+00 # Aimag(ZFV(8,5)) 8 6 -0.00000000E+00 # Aimag(ZFV(8,6)) 8 7 -0.00000000E+00 # Aimag(ZFV(8,7)) 8 8 0.00000000E+00 # Aimag(ZFV(8,8)) 8 9 0.00000000E+00 # Aimag(ZFV(8,9)) 9 1 0.00000000E+00 # Aimag(ZFV(9,1)) 9 2 0.00000000E+00 # Aimag(ZFV(9,2)) 9 3 0.00000000E+00 # Aimag(ZFV(9,3)) 9 4 0.00000000E+00 # Aimag(ZFV(9,4)) 9 5 0.00000000E+00 # Aimag(ZFV(9,5)) 9 6 0.00000000E+00 # Aimag(ZFV(9,6)) 9 7 0.00000000E+00 # Aimag(ZFV(9,7)) 9 8 0.00000000E+00 # Aimag(ZFV(9,8)) 9 9 0.00000000E+00 # Aimag(ZFV(9,9)) Block UELMIX Q= 1.87100118E+03 # () 1 1 1.00000000E+00 # Real(ZEL(1,1),dp) 1 2 0.00000000E+00 # Real(ZEL(1,2),dp) 1 3 0.00000000E+00 # Real(ZEL(1,3),dp) 2 1 0.00000000E+00 # Real(ZEL(2,1),dp) 2 2 1.00000000E+00 # Real(ZEL(2,2),dp) 2 3 0.00000000E+00 # Real(ZEL(2,3),dp) 3 1 0.00000000E+00 # Real(ZEL(3,1),dp) 3 2 0.00000000E+00 # Real(ZEL(3,2),dp) 3 3 1.00000000E+00 # Real(ZEL(3,3),dp) Block IMUELMIX Q= 1.87100118E+03 # () 1 1 0.00000000E+00 # Aimag(ZEL(1,1)) 1 2 0.00000000E+00 # Aimag(ZEL(1,2)) 1 3 0.00000000E+00 # Aimag(ZEL(1,3)) 2 1 0.00000000E+00 # Aimag(ZEL(2,1)) 2 2 0.00000000E+00 # Aimag(ZEL(2,2)) 2 3 0.00000000E+00 # Aimag(ZEL(2,3)) 3 1 0.00000000E+00 # Aimag(ZEL(3,1)) 3 2 0.00000000E+00 # Aimag(ZEL(3,2)) 3 3 0.00000000E+00 # Aimag(ZEL(3,3)) Block UERMIX Q= 1.87100118E+03 # () 1 1 1.00000000E+00 # Real(ZER(1,1),dp) 1 2 0.00000000E+00 # Real(ZER(1,2),dp) 1 3 0.00000000E+00 # Real(ZER(1,3),dp) 2 1 0.00000000E+00 # Real(ZER(2,1),dp) 2 2 1.00000000E+00 # Real(ZER(2,2),dp) 2 3 0.00000000E+00 # Real(ZER(2,3),dp) 3 1 0.00000000E+00 # Real(ZER(3,1),dp) 3 2 0.00000000E+00 # Real(ZER(3,2),dp) 3 3 1.00000000E+00 # Real(ZER(3,3),dp) Block IMUERMIX Q= 1.87100118E+03 # () 1 1 0.00000000E+00 # Aimag(ZER(1,1)) 1 2 0.00000000E+00 # Aimag(ZER(1,2)) 1 3 0.00000000E+00 # Aimag(ZER(1,3)) 2 1 0.00000000E+00 # Aimag(ZER(2,1)) 2 2 0.00000000E+00 # Aimag(ZER(2,2)) 2 3 0.00000000E+00 # Aimag(ZER(2,3)) 3 1 0.00000000E+00 # Aimag(ZER(3,1)) 3 2 0.00000000E+00 # Aimag(ZER(3,2)) 3 3 0.00000000E+00 # Aimag(ZER(3,3)) Block UDLMIX Q= 1.87100118E+03 # () 1 1 9.99999849E-01 # Real(ZDL(1,1),dp) 1 2 2.45836407E-05 # Real(ZDL(1,2),dp) 1 3 -5.49607143E-04 # Real(ZDL(1,3),dp) 2 1 -2.24986793E-05 # Real(ZDL(2,1),dp) 2 2 9.99992805E-01 # Real(ZDL(2,2),dp) 2 3 3.79323305E-03 # Real(ZDL(2,3),dp) 3 1 5.49696440E-04 # Real(ZDL(3,1),dp) 3 2 -3.79322011E-03 # Real(ZDL(3,2),dp) 3 3 9.99992655E-01 # Real(ZDL(3,3),dp) Block IMUDLMIX Q= 1.87100118E+03 # () 1 1 0.00000000E+00 # Aimag(ZDL(1,1)) 1 2 0.00000000E+00 # Aimag(ZDL(1,2)) 1 3 -0.00000000E+00 # Aimag(ZDL(1,3)) 2 1 0.00000000E+00 # Aimag(ZDL(2,1)) 2 2 0.00000000E+00 # Aimag(ZDL(2,2)) 2 3 0.00000000E+00 # Aimag(ZDL(2,3)) 3 1 0.00000000E+00 # Aimag(ZDL(3,1)) 3 2 -0.00000000E+00 # Aimag(ZDL(3,2)) 3 3 0.00000000E+00 # Aimag(ZDL(3,3)) Block UDRMIX Q= 1.87100118E+03 # () 1 1 1.00000000E+00 # Real(ZDR(1,1),dp) 1 2 2.47118684E-06 # Real(ZDR(1,2),dp) 1 3 -1.12253058E-06 # Real(ZDR(1,3),dp) 2 1 -2.47102162E-06 # Real(ZDR(2,1),dp) 2 2 9.99999989E-01 # Real(ZDR(2,2),dp) 2 3 1.47161242E-04 # Real(ZDR(2,3),dp) 3 1 1.12289423E-06 # Real(ZDR(3,1),dp) 3 2 -1.47161240E-04 # Real(ZDR(3,2),dp) 3 3 9.99999989E-01 # Real(ZDR(3,3),dp) Block IMUDRMIX Q= 1.87100118E+03 # () 1 1 0.00000000E+00 # Aimag(ZDR(1,1)) 1 2 0.00000000E+00 # Aimag(ZDR(1,2)) 1 3 0.00000000E+00 # Aimag(ZDR(1,3)) 2 1 -0.00000000E+00 # Aimag(ZDR(2,1)) 2 2 0.00000000E+00 # Aimag(ZDR(2,2)) 2 3 0.00000000E+00 # Aimag(ZDR(2,3)) 3 1 0.00000000E+00 # Aimag(ZDR(3,1)) 3 2 0.00000000E+00 # Aimag(ZDR(3,2)) 3 3 0.00000000E+00 # Aimag(ZDR(3,3)) Block UULMIX Q= 1.87100118E+03 # () 1 1 9.74175205E-01 # Real(ZUL(1,1),dp) 1 2 2.25766303E-01 # Real(ZUL(1,2),dp) 1 3 3.49942042E-03 # Real(ZUL(1,3),dp) 2 1 -2.25713668E-01 # Real(ZUL(2,1),dp) 2 2 9.73302259E-01 # Real(ZUL(2,2),dp) 2 3 4.16659654E-02 # Real(ZUL(2,3),dp) 3 1 6.00077716E-03 # Real(ZUL(3,1),dp) 3 2 -4.13798174E-02 # Real(ZUL(3,2),dp) 3 3 9.99125468E-01 # Real(ZUL(3,3),dp) Block IMUULMIX Q= 1.87100118E+03 # () 1 1 -0.00000000E+00 # Aimag(ZUL(1,1)) 1 2 -0.00000000E+00 # Aimag(ZUL(1,2)) 1 3 -0.00000000E+00 # Aimag(ZUL(1,3)) 2 1 0.00000000E+00 # Aimag(ZUL(2,1)) 2 2 0.00000000E+00 # Aimag(ZUL(2,2)) 2 3 0.00000000E+00 # Aimag(ZUL(2,3)) 3 1 0.00000000E+00 # Aimag(ZUL(3,1)) 3 2 -0.00000000E+00 # Aimag(ZUL(3,2)) 3 3 0.00000000E+00 # Aimag(ZUL(3,3)) Block UURMIX Q= 1.87100118E+03 # () 1 1 1.00000000E+00 # Real(ZUR(1,1),dp) 1 2 -7.67138194E-10 # Real(ZUR(1,2),dp) 1 3 -5.17248390E-11 # Real(ZUR(1,3),dp) 2 1 7.67138177E-10 # Real(ZUR(2,1),dp) 2 2 1.00000000E+00 # Real(ZUR(2,2),dp) 2 3 -3.27078507E-07 # Real(ZUR(2,3),dp) 3 1 5.17250899E-11 # Real(ZUR(3,1),dp) 3 2 3.27078507E-07 # Real(ZUR(3,2),dp) 3 3 1.00000000E+00 # Real(ZUR(3,3),dp) Block IMUURMIX Q= 1.87100118E+03 # () 1 1 0.00000000E+00 # Aimag(ZUR(1,1)) 1 2 0.00000000E+00 # Aimag(ZUR(1,2)) 1 3 0.00000000E+00 # Aimag(ZUR(1,3)) 2 1 0.00000000E+00 # Aimag(ZUR(2,1)) 2 2 0.00000000E+00 # Aimag(ZUR(2,2)) 2 3 0.00000000E+00 # Aimag(ZUR(2,3)) 3 1 0.00000000E+00 # Aimag(ZUR(3,1)) 3 2 0.00000000E+00 # Aimag(ZUR(3,2)) 3 3 0.00000000E+00 # Aimag(ZUR(3,3)) Block ZZMIX Q= 1.87100118E+03 # () 1 1 4.95414313E-01 # Real(ZZ(1,1),dp) 1 2 -8.68656810E-01 # Real(ZZ(1,2),dp) 1 3 -7.19653582E-05 # Real(ZZ(1,3),dp) 2 1 5.35376500E-01 # Real(ZZ(2,1),dp) 2 2 3.05402373E-01 # Real(ZZ(2,2),dp) 2 3 -7.87465170E-01 # Real(ZZ(2,3),dp) 3 1 6.84058960E-01 # Real(ZZ(3,1),dp) 3 2 3.90082988E-01 # Real(ZZ(3,2),dp) 3 3 6.16359150E-01 # Real(ZZ(3,3),dp) Block IMZZMIX Q= 1.87100118E+03 # () 1 1 0.00000000E+00 # Aimag(ZZ(1,1)) 1 2 0.00000000E+00 # Aimag(ZZ(1,2)) 1 3 0.00000000E+00 # Aimag(ZZ(1,3)) 2 1 0.00000000E+00 # Aimag(ZZ(2,1)) 2 2 0.00000000E+00 # Aimag(ZZ(2,2)) 2 3 0.00000000E+00 # Aimag(ZZ(2,3)) 3 1 0.00000000E+00 # Aimag(ZZ(3,1)) 3 2 0.00000000E+00 # Aimag(ZZ(3,2)) 3 3 0.00000000E+00 # Aimag(ZZ(3,3)) Block SPheno # SPheno internal parameters 1 -1.00000000E+00 # ErrorLevel 2 0.00000000E+00 # SPA_conventions 11 1.00000000E+00 # Branching ratios 13 1.00000000E+00 # 3 Body decays 31 1.43413041E+16 # GUT scale 33 1.87100118E+03 # Renormalization scale 34 1.00000000E-04 # Precision 35 4.00000000E+01 # Iterations 38 2.00000000E+00 # RGE level 40 7.29735257E-03 # Alpha 41 2.49520000E+00 # Gamma_Z 42 2.06000000E+00 # Gamma_W 50 0.00000000E+00 # Rotate negative fermion masses 51 0.00000000E+00 # Switch to SCKM matrix 52 0.00000000E+00 # Ignore negative masses 53 0.00000000E+00 # Ignore negative masses at MZ 55 1.00000000E+00 # Calculate one loop masses 56 1.00000000E+00 # Calculate two-loop Higgs masses 57 1.00000000E+00 # Calculate low energy 60 1.00000000E+00 # Include kinetic mixing 65 1.00000000E+00 # Solution of tadpole equation 8 3.00000000E+00 # Two-Loop Method: diagrammatic 9 1.00000000E+00 # Gauge-less limit 400 1.00000000E-01 # Step-size for purely-numerical methode for 2-loop calculation 401 1.00000000E-03 # Step-size for semi-analytical methode for 2-loop calculation 410 0.00000000E+00 # indicative error in numerical derivation Block HiggsLHC7 # Higgs production cross section at LHC7 [pb] (rescaled SM values from HXSWG) 1 25 1.59762888E+01 # Gluon fusion 2 25 1.23471899E+00 # Vector boson fusion 3 25 5.79747283E-01 # W-H production 4 25 3.35341244E-01 # Z-H production 5 25 9.10298310E-02 # t-t-H production 1 35 6.98898886E-02 # Gluon fusion 2 35 9.26628312E-03 # Vector boson fusion 5 35 1.26391269E-04 # t-t-H production Block HiggsLHC8 # Higgs production cross section at LHC8 [pb] (rescaled SM values from HXSWG) 1 25 2.03076689E+01 # Gluon fusion 2 25 1.59042190E+00 # Vector boson fusion 3 25 7.38077952E-01 # W-H production 4 25 4.18552147E-01 # Z-H production 5 25 1.37623379E-01 # t-t-H production 1 35 9.43830810E-02 # Gluon fusion 2 35 1.25603062E-02 # Vector boson fusion 3 35 2.33557218E-04 # W-H production 4 35 1.38259850E-03 # Z-H production 5 35 3.96003900E-04 # t-t-H production Block HiggsLHC13 # Higgs production cross section at LHC13 [pb] (rescaled SM values from SusHI 1.5.0) 1 25 4.73104416E+01 # Gluon fusion 1 35 2.43198502E-01 # Gluon fusion Block HiggsLHC14 # Higgs production cross section at LHC14 [pb] (rescaled SM values from SusHI 1.5.0) 1 25 5.32506799E+01 # Gluon fusion 1 35 2.79660600E-01 # Gluon fusion Block HiggsFCC100 # Higgs production cross section at FCC-pp [pb] (rescaled SM values from SusHI 1.5.0) 1 25 7.76877143E+02 # Gluon fusion 1 35 6.26730870E+00 # Gluon fusion Block EFFHIGGSCOUPLINGS # values of loop-induced couplings 25 22 22 0.35368790E-04 # H-Photon-Photon 25 21 21 0.64882218E-04 # H-Gluon-Gluon 25 22 23 0.00000000E+00 # H-Photon-Z (not yet calculated by SPheno) 35 22 22 0.83340673E-06 # H-Photon-Photon 35 21 21 0.13468334E-05 # H-Gluon-Gluon 35 22 23 0.00000000E+00 # H-Photon-Z (not yet calculated by SPheno) 225 22 22 0.36830177E-06 # H-Photon-Photon 225 21 21 0.12283475E-05 # H-Gluon-Gluon 225 22 23 0.00000000E+00 # H-Photon-Z (not yet calculated by SPheno) 232 22 22 0.22710984E-06 # H-Photon-Photon 232 21 21 0.26888561E-06 # H-Gluon-Gluon 232 22 23 0.00000000E+00 # H-Photon-Z (not yet calculated by SPheno) 36 22 22 0.12429504E-06 # A-Photon-Photon 36 21 21 0.16293455E-05 # A-Gluon-Gluon 36 22 23 0.00000000E+00 # A-Photon-Z (not yet calculated by SPheno) 236 22 22 0.13355798E-10 # A-Photon-Photon 236 21 21 0.69661112E-10 # A-Gluon-Gluon 236 22 23 0.00000000E+00 # A-Photon-Z (not yet calculated by SPheno) Block SPhenoLowEnergy # low energy observables 1 -3.81300385E-04 # T-parameter (1-loop BSM) 2 4.61601467E+00 # S-parameter (1-loop BSM) 3 3.70493554E+00 # U-parameter (1-loop BSM) 20 9.06370077E-15 # (g-2)_e 21 3.88154836E-10 # (g-2)_mu 22 2.59465059E-07 # (g-2)_tau 23 0.00000000E+00 # EDM(e) 24 0.00000000E+00 # EDM(mu) 25 0.00000000E+00 # EDM(tau) 39 -2.14833804E-04 # delta(rho) Block FlavorKitQFV # quark flavor violating observables 200 3.01195421E-04 # BR(B->X_s gamma) 201 9.56175939E-01 # BR(B->X_s gamma)/BR(B->X_s gamma)_SM 300 6.34046630E-04 # BR(D->mu nu) 301 9.81621343E-01 # BR(D->mu nu)/BR(D->mu nu)_SM 400 5.96697128E-03 # BR(Ds->mu nu) 401 9.76021980E-01 # BR(Ds->mu nu)/BR(Ds->mu nu)_SM 402 5.97432069E-02 # BR(Ds->tau nu) 403 9.99914687E-01 # BR(Ds->tau nu)/BR(Ds->tau nu)_SM 500 3.00175645E-07 # BR(B->mu nu) 501 5.30639262E-01 # BR(B->mu nu)/BR(B->mu nu)_SM 502 1.25631052E-04 # BR(B->tau nu) 503 9.98080202E-01 # BR(B->tau nu)/BR(B->tau nu)_SM 600 6.89742965E-01 # BR(K->mu nu) 601 9.95343134E-01 # BR(K->mu nu)/BR(K->mu nu)_SM 602 2.48737407E-05 # R_K = BR(K->e nu)/(K->mu nu) 603 2.47510431E-05 # R_K^SM = BR(K->e nu)_SM/(K->mu nu)_SM 1900 1.79380077E+01 # Delta(M_Bs) 1901 1.00338662E+00 # Delta(M_Bs)/Delta(M_Bs)_SM 1902 4.01431847E-01 # Delta(M_Bd) 1903 1.00461774E+00 # Delta(M_Bd)/Delta(M_Bd)_SM 4000 2.71936202E-15 # BR(B^0_d->e e) 4001 1.11791669E+00 # BR(B^0_d->e e)/BR(B^0_d->e e)_SM 4002 8.34888950E-14 # BR(B^0_s->e e) 4003 1.10536020E+00 # BR(B^0_s->e e)/BR(B^0_s->e e)_SM 4004 1.16167140E-10 # BR(B^0_d->mu mu) 4005 1.11790759E+00 # BR(B^0_d->mu mu)/BR(B^0_d->mu mu)_SM 4006 3.56662402E-09 # BR(B^0_s->mu mu) 4007 1.10535404E+00 # BR(B^0_s->mu mu)/BR(B^0_s->mu mu)_SM 4008 2.42615169E-08 # BR(B^0_d->tau tau) 4009 1.11544074E+00 # BR(B^0_d->tau tau)/BR(B^0_d->tau tau)_SM 4010 7.55293593E-07 # BR(B^0_s->tau tau) 4011 1.10371681E+00 # BR(B^0_s->tau tau)/BR(B^0_s->tau tau)_SM 5000 1.64363909E-06 # BR(B-> s e e) 5001 9.92961409E-01 # BR(B-> s e e)/BR(B-> s e e)_SM 5002 1.59240915E-06 # BR(B-> s mu mu) 5003 9.92285065E-01 # BR(B-> s mu mu)/BR(B-> s mu mu)_SM 6000 1.11290265E-07 # BR(B -> K mu mu) 6001 1.00261500E+00 # BR(B -> K mu mu)/BR(B -> K mu mu)_SM 6002 1.11290259E-07 # BR(B -> K mu mu) 6003 1.00261495E+00 # BR(B -> K mu mu)/BR(B -> K mu mu)_SM 7000 3.78795147E-05 # BR(B->s nu nu) 7001 9.99433561E-01 # BR(B->s nu nu)/BR(B->s nu nu)_SM 7002 1.75391714E-06 # BR(B->D nu nu) 7003 9.99429160E-01 # BR(B->D nu nu)/BR(B->D nu nu)_SM 8000 1.23183264E-10 # BR(K^+ -> pi^+ nu nu) 8001 9.99662572E-01 # BR(K^+ -> pi^+ nu nu)/BR(K^+ -> pi^+ nu nu)_SM 8002 2.80183755E-11 # BR(K_L -> pi^0 nu nu) 8003 9.99427938E-01 # BR(K_L -> pi^0 nu nu)/BR(K_L -> pi^0 nu nu)_SM 8004 0.00000000E+00 # BR(K^0_L -> e mu) 8005 0.00000000E+00 # BR(K^0_L -> e mu)/BR(K^0_L -> e mu)_SM 9100 2.06439373E-15 # Delta(M_K) 9102 1.00001372E+00 # Delta(M_K)/Delta(M_K)_SM 9103 1.94714739E-03 # epsilon_K 9104 1.00150974E+00 # epsilon_K/epsilon_K^SM Block FlavorKitLFV # lepton flavor violating observables 701 6.06772614E-38 # BR(mu->e gamma) 702 2.71672814E-39 # BR(tau->e gamma) 703 1.67755113E-42 # BR(tau->mu gamma) 800 1.24822923E-37 # CR(mu-e, Al) 801 2.78486911E-37 # CR(mu-e, Ti) 802 3.22980346E-37 # CR(mu-e, Sr) 803 5.95517647E-37 # CR(mu-e, Sb) 804 3.87605204E-37 # CR(mu-e, Au) 805 3.81475872E-37 # CR(mu-e, Pb) 901 1.83585274E-38 # BR(mu->3e) 902 1.10455224E-39 # BR(tau->3e) 903 9.27513315E-44 # BR(tau->3mu) 904 6.46511904E-40 # BR(tau- -> e- mu+ mu-) 905 6.92736052E-44 # BR(tau- -> mu- e+ e-) 906 1.79621817E-82 # BR(tau- -> e+ mu- mu-) 907 2.79709929E-78 # BR(tau- -> mu+ e- e-) 1001 5.27593228E-39 # BR(Z->e mu) 1002 1.78905892E-39 # BR(Z->e tau) 1003 1.34776221E-43 # BR(Z->mu tau) 1101 1.47016630E-37 # BR(h->e mu) 1102 9.28146643E-38 # BR(h->e tau) 1103 4.61975951E-39 # BR(h->mu tau) 2001 1.57467818E-39 # BR(tau->e pi) 2002 2.33167515E-40 # BR(tau->e eta) 2003 2.57162545E-40 # BR(tau->e eta') 2004 1.17364498E-43 # BR(tau->mu pi) 2005 1.71825351E-44 # BR(tau->mu eta) 2006 1.88109591E-44 # BR(tau->mu eta') Block FWCOEF Q= 1.60000000E+02 # Wilson coefficients at scale Q 0305 4422 00 0 -0.17049349E-08 # coeffC7sm 0305 4422 00 2 -0.15346913E-08 # coeffC7 0305 4322 00 2 -0.29749733E-10 # coeffC7p 0305 4422 00 1 0.17024355E-09 # coeffC7NP 0305 4322 00 1 -0.29749733E-10 # coeffC7pNP 0305 6421 00 0 -0.85534682E-09 # coeffC8sm 0305 6421 00 2 -0.84668942E-09 # coeffC8 0305 6321 00 2 -0.16321107E-10 # coeffC8p 0305 6421 00 1 0.86574012E-11 # coeffC8NP 0305 6321 00 1 -0.16321107E-10 # coeffC8pNP 03051111 4133 00 0 0.10345669E-08 # coeffC9eeSM 03051111 4133 00 2 0.10344763E-08 # coeffC9ee 03051111 4233 00 2 -0.54168566E-13 # coeffC9Pee 03051111 4133 00 1 -0.90649200E-13 # coeffC9eeNP 03051111 4233 00 1 -0.54168566E-13 # coeffC9PeeNP 03051111 4137 00 0 -0.39048502E-08 # coeffC10eeSM 03051111 4137 00 2 -0.39036854E-08 # coeffC10ee 03051111 4237 00 2 -0.53139090E-12 # coeffC10Pee 03051111 4137 00 1 0.11647509E-11 # coeffC10eeNP 03051111 4237 00 1 0.53139090E-12 # coeffC10PeeNP 03051313 4133 00 0 0.10345664E-08 # coeffC9mumuSM 03051313 4133 00 2 0.10344728E-08 # coeffC9mumu 03051313 4233 00 2 -0.54168411E-13 # coeffC9Pmumu 03051313 4133 00 1 -0.93588369E-13 # coeffC9mumuNP 03051313 4233 00 1 -0.54168411E-13 # coeffC9PmumuNP 03051313 4137 00 0 -0.39048507E-08 # coeffC10mumuSM 03051313 4137 00 2 -0.39036887E-08 # coeffC10mumu 03051313 4237 00 2 -0.53138907E-12 # coeffC10Pmumu 03051313 4137 00 1 0.11619997E-11 # coeffC10mumuNP 03051313 4237 00 1 -0.53138907E-12 # coeffC10PmumuNP 03051212 4141 00 0 -0.12064054E-07 # coeffCLnu1nu1SM 03051212 4141 00 2 -0.12061361E-07 # coeffCLnu1nu1 03051212 4241 00 2 0.10627465E-11 # coeffCLPnu1nu1 03051212 4141 00 1 0.26927695E-11 # coeffCLnu1nu1NP 03051212 4241 00 1 0.10627465E-11 # coeffCLPnu1nu1NP 03051414 4141 00 0 -0.12039394E-07 # coeffCLnu2nu2SM 03051414 4141 00 2 -0.12034396E-07 # coeffCLnu2nu2 03051414 4241 00 2 0.10627250E-11 # coeffCLPnu2nu2 03051414 4141 00 1 0.49979088E-11 # coeffCLnu2nu2NP 03051414 4241 00 1 0.10627250E-11 # coeffCLPnu2nu2NP 03051616 4141 00 0 -0.12063938E-07 # coeffCLnu3nu3SM 03051616 4141 00 2 -0.12061240E-07 # coeffCLnu3nu3 03051616 4241 00 2 0.10627460E-11 # coeffCLPnu3nu3 03051616 4141 00 1 0.26982076E-11 # coeffCLnu3nu3NP 03051616 4241 00 1 0.10627460E-11 # coeffCLPnu3nu3NP 03051212 4142 00 0 0.00000000E+00 # coeffCRnu1nu1SM 03051212 4142 00 2 0.12061361E-07 # coeffCRnu1nu1 03051212 4242 00 2 -0.10627465E-11 # coeffCRPnu1nu1 03051212 4142 00 1 0.12061361E-07 # coeffCRnu1nu1NP 03051212 4242 00 1 -0.10627465E-11 # coeffCRPnu1nu1NP 03051414 4142 00 0 0.00000000E+00 # coeffCRnu2nu2SM 03051414 4142 00 2 0.12034396E-07 # coeffCRnu2nu2 03051414 4242 00 2 -0.10627250E-11 # coeffCRPnu2nu2 03051414 4142 00 1 0.12034396E-07 # coeffCRnu2nu2NP 03051414 4242 00 1 -0.10627250E-11 # coeffCRPnu2nu2NP 03051616 4142 00 0 0.00000000E+00 # coeffCRnu3nu3SM 03051616 4142 00 2 0.12061240E-07 # coeffCRnu3nu3 03051616 4242 00 2 -0.10627460E-11 # coeffCRPnu3nu3 03051616 4142 00 1 0.12061240E-07 # coeffCRnu3nu3NP 03051616 4242 00 1 -0.10627460E-11 # coeffCRPnu3nu3NP 01030103 3131 00 2 -0.17454500E-23 # coeffKK_SLL 01030103 3232 00 2 -0.62985963E-21 # coeffKK_SRR 01030103 3132 00 2 -0.33004690E-19 # coeffKK_SLR 01030103 4141 00 2 0.95429271E-13 # coeffKK_VLL 01030103 4242 00 2 0.17398885E-27 # coeffKK_VRR 01030103 4142 00 2 -0.11503600E-22 # coeffKK_VLR 01030103 4343 00 2 -0.64850823E-26 # coeffKK_TLL 01030103 4444 00 2 -0.24024905E-23 # coeffKK_TRR 01050105 3131 00 2 -0.93766186E-21 # coeffBB_SLL 01050105 3232 00 2 -0.91310463E-15 # coeffBB_SRR 01050105 3132 00 2 -0.82236893E-16 # coeffBB_SLR 01050105 4141 00 2 0.33185551E-11 # coeffBB_VLL 01050105 4242 00 2 0.22503209E-22 # coeffBB_VRR 01050105 4142 00 2 -0.17544919E-18 # coeffBB_VLR 01050105 4343 00 2 -0.13663849E-23 # coeffBB_TLL 01050105 4444 00 2 -0.16143013E-17 # coeffBB_TRR 03050305 3131 00 2 -0.98833852E-17 # coeffBsBs_SLL 03050305 3232 00 2 -0.26675495E-13 # coeffBsBs_SRR 03050305 3132 00 2 -0.45609978E-13 # coeffBsBs_SLR 03050305 4141 00 2 0.96958914E-10 # coeffBsBs_VLL 03050305 4242 00 2 0.26766511E-18 # coeffBsBs_VRR 03050305 4142 00 2 -0.10697196E-16 # coeffBsBs_VLR 03050305 4343 00 2 -0.15766732E-19 # coeffBsBs_TLL 03050305 4444 00 2 -0.47617368E-16 # coeffBsBs_TRR 01030103 3131 00 1 0.82737618E-25 # coeffKK_SLLNP 01030103 3232 00 1 0.30104082E-22 # coeffKK_SRRNP 01030103 3132 00 1 -0.24621878E-19 # coeffKK_SLRNP 01030103 4141 00 1 0.71198402E-17 # coeffKK_VLLNP 01030103 4242 00 1 0.16229892E-27 # coeffKK_VRRNP 01030103 4142 00 1 0.23231648E-22 # coeffKK_VLRNP 01030103 4343 00 1 -0.64850823E-26 # coeffKK_TLLNP 01030103 4444 00 1 -0.24024905E-23 # coeffKK_TRRNP 01050105 3131 00 1 0.23823500E-22 # coeffBB_SLLNP 01050105 3232 00 1 0.24277370E-16 # coeffBB_SRRNP 01050105 3132 00 1 -0.74648831E-16 # coeffBB_SLRNP 01050105 4141 00 1 0.39438857E-14 # coeffBB_VLLNP 01050105 4242 00 1 0.22223872E-22 # coeffBB_VRRNP 01050105 4142 00 1 0.77390800E-18 # coeffBB_VLRNP 01050105 4343 00 1 -0.13663849E-23 # coeffBB_TLLNP 01050105 4444 00 1 -0.16143013E-17 # coeffBB_TRRNP 03050305 3131 00 1 0.25622328E-18 # coeffBsBs_SLLNP 03050305 3232 00 1 0.70843847E-15 # coeffBsBs_SRRNP 03050305 3132 00 1 -0.41396967E-13 # coeffBsBs_SLRNP 03050305 4141 00 1 0.11520260E-12 # coeffBsBs_VLLNP 03050305 4242 00 1 0.26471747E-18 # coeffBsBs_VRRNP 03050305 4142 00 1 0.51623957E-15 # coeffBsBs_VLRNP 03050305 4343 00 1 -0.15766732E-19 # coeffBsBs_TLLNP 03050305 4444 00 1 -0.47617368E-16 # coeffBsBs_TRRNP 01030103 3131 00 0 -0.18281876E-23 # coeffKK_SLLSM 01030103 3232 00 0 -0.65996371E-21 # coeffKK_SRRSM 01030103 3132 00 0 -0.83828127E-20 # coeffKK_SLRSM 01030103 4141 00 0 0.95422151E-13 # coeffKK_VLLSM 01030103 4242 00 0 0.11689935E-28 # coeffKK_VRRSM 01030103 4142 00 0 -0.34735248E-22 # coeffKK_VLRSM 01030103 4343 00 0 -0.49144393E-46 # coeffKK_TLLSM 01030103 4444 00 0 -0.29609459E-46 # coeffKK_TRRSM 01050105 3131 00 0 -0.96148536E-21 # coeffBB_SLLSM 01050105 3232 00 0 -0.93738200E-15 # coeffBB_SRRSM 01050105 3132 00 0 -0.75880620E-17 # coeffBB_SLRSM 01050105 4141 00 0 0.33146113E-11 # coeffBB_VLLSM 01050105 4242 00 0 0.27933797E-24 # coeffBB_VRRSM 01050105 4142 00 0 -0.94935719E-18 # coeffBB_VLRSM 01050105 4343 00 0 0.18464620E-54 # coeffBB_TLLSM 01050105 4444 00 0 -0.80674161E-49 # coeffBB_TRRSM 03050305 3131 00 0 -0.10139608E-16 # coeffBsBs_SLLSM 03050305 3232 00 0 -0.27383933E-13 # coeffBsBs_SRRSM 03050305 3132 00 0 -0.42130117E-14 # coeffBsBs_SLRSM 03050305 4141 00 0 0.96843711E-10 # coeffBsBs_VLLSM 03050305 4242 00 0 0.29476407E-20 # coeffBsBs_VRRSM 03050305 4142 00 0 -0.52693677E-15 # coeffBsBs_VLRSM 03050305 4343 00 0 -0.21512513E-49 # coeffBsBs_TLLSM 03050305 4444 00 0 -0.12386173E-46 # coeffBsBs_TRRSM Block IMFWCOEF Q= 1.60000000E+02 # Im(Wilson coefficients) at scale Q 0305 4422 00 0 -0.30429002E-10 # coeffC7sm 0305 4422 00 2 -0.28178505E-10 # coeffC7 0305 4322 00 2 -0.55762406E-12 # coeffC7p 0305 4422 00 1 0.22504965E-11 # coeffC7NP 0305 4322 00 1 -0.55762406E-12 # coeffC7pNP 0305 6421 00 0 -0.15267137E-10 # coeffC8sm 0305 6421 00 2 -0.14970013E-10 # coeffC8 0305 6321 00 2 -0.29974789E-12 # coeffC8p 0305 6421 00 1 0.29712370E-12 # coeffC8NP 0305 6321 00 1 -0.29974789E-12 # coeffC8pNP 03051111 4133 00 0 -0.18472682E-10 # coeffC9eeSM 03051111 4133 00 2 -0.18473715E-10 # coeffC9ee 03051111 4233 00 2 0.95569541E-15 # coeffC9Pee 03051111 4133 00 1 -0.10333412E-14 # coeffC9eeNP 03051111 4233 00 1 0.95569541E-15 # coeffC9PeeNP 03051111 4137 00 0 0.69686829E-10 # coeffC10eeSM 03051111 4137 00 2 0.69666695E-10 # coeffC10ee 03051111 4237 00 2 0.93744029E-14 # coeffC10Pee 03051111 4137 00 1 -0.20134216E-13 # coeffC10eeNP 03051111 4237 00 1 -0.93744029E-14 # coeffC10PeeNP 03051313 4133 00 0 -0.18472673E-10 # coeffC9mumuSM 03051313 4133 00 2 -0.18473655E-10 # coeffC9mumu 03051313 4233 00 2 0.95567271E-15 # coeffC9Pmumu 03051313 4133 00 1 -0.98248529E-15 # coeffC9mumuNP 03051313 4233 00 1 0.95567271E-15 # coeffC9PmumuNP 03051313 4137 00 0 0.69686838E-10 # coeffC10mumuSM 03051313 4137 00 2 0.69666754E-10 # coeffC10mumu 03051313 4237 00 2 0.93744250E-14 # coeffC10Pmumu 03051313 4137 00 1 -0.20083526E-13 # coeffC10mumuNP 03051313 4237 00 1 0.93744250E-14 # coeffC10PmumuNP 03051212 4141 00 0 0.21536173E-09 # coeffCLnu1nu1SM 03051212 4141 00 2 0.21531378E-09 # coeffCLnu1nu1 03051212 4241 00 2 -0.18748824E-13 # coeffCLPnu1nu1 03051212 4141 00 1 -0.47952046E-13 # coeffCLnu1nu1NP 03051212 4241 00 1 -0.18748824E-13 # coeffCLPnu1nu1NP 03051414 4141 00 0 0.21489868E-09 # coeffCLnu2nu2SM 03051414 4141 00 2 0.21481220E-09 # coeffCLnu2nu2 03051414 4241 00 2 -0.18736002E-13 # coeffCLPnu2nu2 03051414 4141 00 1 -0.86482251E-13 # coeffCLnu2nu2NP 03051414 4241 00 1 -0.18736002E-13 # coeffCLPnu2nu2NP 03051616 4141 00 0 0.21535876E-09 # coeffCLnu3nu3SM 03051616 4141 00 2 0.21531071E-09 # coeffCLnu3nu3 03051616 4241 00 2 -0.18748779E-13 # coeffCLPnu3nu3 03051616 4141 00 1 -0.48042691E-13 # coeffCLnu3nu3NP 03051616 4241 00 1 -0.18748779E-13 # coeffCLPnu3nu3NP 03051212 4142 00 0 0.00000000E+00 # coeffCRnu1nu1SM 03051212 4142 00 2 -0.21531378E-09 # coeffCRnu1nu1 03051212 4242 00 2 0.18748824E-13 # coeffCRPnu1nu1 03051212 4142 00 1 -0.21531378E-09 # coeffCRnu1nu1NP 03051212 4242 00 1 0.18748824E-13 # coeffCRPnu1nu1NP 03051414 4142 00 0 0.00000000E+00 # coeffCRnu2nu2SM 03051414 4142 00 2 -0.21481220E-09 # coeffCRnu2nu2 03051414 4242 00 2 0.18736002E-13 # coeffCRPnu2nu2 03051414 4142 00 1 -0.21481220E-09 # coeffCRnu2nu2NP 03051414 4242 00 1 0.18736002E-13 # coeffCRPnu2nu2NP 03051616 4142 00 0 0.00000000E+00 # coeffCRnu3nu3SM 03051616 4142 00 2 -0.21531071E-09 # coeffCRnu3nu3 03051616 4242 00 2 0.18748779E-13 # coeffCRPnu3nu3 03051616 4142 00 1 -0.21531071E-09 # coeffCRnu3nu3NP 03051616 4242 00 1 0.18748779E-13 # coeffCRPnu3nu3NP 01030103 3131 00 2 -0.15510807E-23 # coeffKK_SLL 01030103 3232 00 2 -0.55913651E-21 # coeffKK_SRR 01030103 3132 00 2 -0.28028294E-20 # coeffKK_SLR 01030103 4141 00 2 0.61263422E-14 # coeffKK_VLL 01030103 4242 00 2 0.12089014E-28 # coeffKK_VRR 01030103 4142 00 2 -0.20989877E-22 # coeffKK_VLR 01030103 4343 00 2 -0.16191662E-26 # coeffKK_TLL 01030103 4444 00 2 -0.78279893E-24 # coeffKK_TRR 01050105 3131 00 2 -0.84871864E-21 # coeffBB_SLL 01050105 3232 00 2 -0.82545444E-15 # coeffBB_SRR 01050105 3132 00 2 -0.74466831E-16 # coeffBB_SLR 01050105 4141 00 2 0.30004982E-11 # coeffBB_VLL 01050105 4242 00 2 0.16347998E-22 # coeffBB_VRR 01050105 4142 00 2 -0.55937317E-18 # coeffBB_VLR 01050105 4343 00 2 -0.92881433E-24 # coeffBB_TLL 01050105 4444 00 2 -0.14022966E-17 # coeffBB_TRR 03050305 3131 00 2 0.35343857E-18 # coeffBsBs_SLL 03050305 3232 00 2 0.95247038E-15 # coeffBsBs_SRR 03050305 3132 00 2 0.16329271E-14 # coeffBsBs_SLR 03050305 4141 00 2 -0.34626424E-11 # coeffBsBs_VLL 03050305 4242 00 2 -0.68330372E-20 # coeffBsBs_VRR 03050305 4142 00 2 0.99757260E-17 # coeffBsBs_VLR 03050305 4343 00 2 0.41735021E-21 # coeffBsBs_TLL 03050305 4444 00 2 0.16412023E-17 # coeffBsBs_TRR 01030103 3131 00 1 0.35981453E-25 # coeffKK_SLLNP 01030103 3232 00 1 0.13782500E-22 # coeffKK_SRRNP 01030103 3132 00 1 -0.24979001E-20 # coeffKK_SLRNP 01030103 4141 00 1 0.61841283E-17 # coeffKK_VLLNP 01030103 4242 00 1 0.11827654E-28 # coeffKK_VRRNP 01030103 4142 00 1 0.91640294E-23 # coeffKK_VLRNP 01030103 4343 00 1 -0.16191662E-26 # coeffKK_TLLNP 01030103 4444 00 1 -0.78279893E-24 # coeffKK_TRRNP 01050105 3131 00 1 0.20363533E-22 # coeffBB_SLLNP 01050105 3232 00 1 0.21840820E-16 # coeffBB_SRRNP 01050105 3132 00 1 -0.67603551E-16 # coeffBB_SLRNP 01050105 4141 00 1 0.35640208E-14 # coeffBB_VLLNP 01050105 4242 00 1 0.16095176E-22 # coeffBB_VRRNP 01050105 4142 00 1 0.29874640E-18 # coeffBB_VLRNP 01050105 4343 00 1 -0.92881433E-24 # coeffBB_TLLNP 01050105 4444 00 1 -0.14022966E-17 # coeffBB_TRRNP 03050305 3131 00 1 -0.86041395E-20 # coeffBsBs_SLLNP 03050305 3232 00 1 -0.25294522E-16 # coeffBsBs_SRRNP 03050305 3132 00 1 0.14824352E-14 # coeffBsBs_SLRNP 03050305 4141 00 1 -0.41131802E-14 # coeffBsBs_VLLNP 03050305 4242 00 1 -0.67277011E-20 # coeffBsBs_VRRNP 03050305 4142 00 1 -0.88389664E-17 # coeffBsBs_VLRNP 03050305 4343 00 1 0.41735021E-21 # coeffBsBs_TLLNP 03050305 4444 00 1 0.16412023E-17 # coeffBsBs_TRRNP 01030103 3131 00 0 -0.15870622E-23 # coeffKK_SLLSM 01030103 3232 00 0 -0.57291901E-21 # coeffKK_SRRSM 01030103 3132 00 0 -0.30492931E-21 # coeffKK_SLRSM 01030103 4141 00 0 0.61201581E-14 # coeffKK_VLLSM 01030103 4242 00 0 0.26135961E-30 # coeffKK_VRRSM 01030103 4142 00 0 -0.30153906E-22 # coeffKK_VLRSM 01030103 4343 00 0 -0.31419441E-46 # coeffKK_TLLSM 01030103 4444 00 0 -0.59056871E-46 # coeffKK_TRRSM 01050105 3131 00 0 -0.86908217E-21 # coeffBB_SLLSM 01050105 3232 00 0 -0.84729526E-15 # coeffBB_SRRSM 01050105 3132 00 0 -0.68632799E-17 # coeffBB_SLRSM 01050105 4141 00 0 0.29969342E-11 # coeffBB_VLLSM 01050105 4242 00 0 0.25282138E-24 # coeffBB_VRRSM 01050105 4142 00 0 -0.85811958E-18 # coeffBB_VLRSM 01050105 4343 00 0 0.00000000E+00 # coeffBB_TLLSM 01050105 4444 00 0 -0.43026219E-49 # coeffBB_TRRSM 03050305 3131 00 0 0.36204271E-18 # coeffBsBs_SLLSM 03050305 3232 00 0 0.97776490E-15 # coeffBsBs_SRRSM 03050305 3132 00 0 0.15049194E-15 # coeffBsBs_SLRSM 03050305 4141 00 0 -0.34585292E-11 # coeffBsBs_VLLSM 03050305 4242 00 0 -0.10533609E-21 # coeffBsBs_VRRSM 03050305 4142 00 0 0.18814692E-16 # coeffBsBs_VLRSM 03050305 4343 00 0 0.16806908E-51 # coeffBsBs_TLLSM 03050305 4444 00 0 0.51631462E-48 # coeffBsBs_TRRSM DECAY 25 3.60694479E-03 # hh_1 # BR NDA ID1 ID2 3.18851687E-03 2 22 22 # BR(hh_1 -> VP VP ) 8.58399960E-02 2 21 21 # BR(hh_1 -> VG VG ) 2.71071783E-02 2 23 23 # BR(hh_1 -> VZ VZ ) 2.16430413E-01 2 24 -24 # BR(hh_1 -> VWm^* VWm_virt ) 2.14259862E-04 2 -3 3 # BR(hh_1 -> Fd_2^* Fd_2 ) 5.73830282E-01 2 -5 5 # BR(hh_1 -> Fd_3^* Fd_3 ) 2.29956047E-04 2 -13 13 # BR(hh_1 -> Fe_2^* Fe_2 ) 6.63740441E-02 2 -15 15 # BR(hh_1 -> Fe_3^* Fe_3 ) 2.67846409E-02 2 -4 4 # BR(hh_1 -> Fu_2^* Fu_2 ) DECAY 35 2.42420515E-03 # hh_2 # BR NDA ID1 ID2 4.78281233E-04 2 21 21 # BR(hh_2 -> VG VG ) 7.87676992E-04 2 -5 5 # BR(hh_2 -> Fd_3^* Fd_3 ) 1.02140021E-04 2 -15 15 # BR(hh_2 -> Fe_3^* Fe_3 ) 5.04632215E-02 2 25 25 # BR(hh_2 -> hh_1 hh_1 ) 6.75885071E-01 2 -24 24 # BR(hh_2 -> VWm VWm^* ) 2.72225213E-01 2 23 23 # BR(hh_2 -> VZ VZ ) DECAY 225 4.31080835E+01 # hh_3 # BR NDA ID1 ID2 1.10071421E-04 2 1000022 1000023 # BR(hh_3 -> Chi_1 Chi_2 ) 2.62149087E-04 2 -3 3 # BR(hh_3 -> Fd_2^* Fd_2 ) 7.03898166E-01 2 -5 5 # BR(hh_3 -> Fd_3^* Fd_3 ) 4.07731842E-04 2 -13 13 # BR(hh_3 -> Fe_2^* Fe_2 ) 1.17833794E-01 2 -15 15 # BR(hh_3 -> Fe_3^* Fe_3 ) 1.17374394E-03 2 -6 6 # BR(hh_3 -> Fu_3^* Fu_3 ) 6.91068938E-02 2 -1000011 1000011 # BR(hh_3 -> Se_1^* Se_1 ) 3.36950996E-02 2 -1000011 1000013 # BR(hh_3 -> Se_1^* Se_2 ) 3.36950996E-02 2 -1000013 1000011 # BR(hh_3 -> Se_2^* Se_1 ) 3.97632639E-02 2 -1000013 1000013 # BR(hh_3 -> Se_2^* Se_2 ) DECAY 232 1.51623944E+02 # hh_4 # BR NDA ID1 ID2 5.50379525E-03 2 36 36 # BR(hh_4 -> Ah_3 Ah_3 ) 6.62445413E-03 2 25 25 # BR(hh_4 -> hh_1 hh_1 ) 5.51234544E-03 2 225 225 # BR(hh_4 -> hh_3 hh_3 ) 1.10127655E-02 2 37 -37 # BR(hh_4 -> Hpm_2^* Hpm_2 ) 2.40817546E-02 2 -1000001 1000001 # BR(hh_4 -> Sd_1^* Sd_1 ) 3.01678209E-02 2 -1000001 1000003 # BR(hh_4 -> Sd_1^* Sd_2 ) 3.01678209E-02 2 -1000003 1000001 # BR(hh_4 -> Sd_2^* Sd_1 ) 5.39176722E-04 2 -1000003 1000003 # BR(hh_4 -> Sd_2^* Sd_2 ) 6.78189272E-02 2 -1000005 1000005 # BR(hh_4 -> Sd_3^* Sd_3 ) 6.78169704E-02 2 -2000001 2000001 # BR(hh_4 -> Sd_4^* Sd_4 ) 7.47171481E-03 2 -2000003 2000003 # BR(hh_4 -> Sd_5^* Sd_5 ) 7.47139066E-03 2 -2000005 2000005 # BR(hh_4 -> Sd_6^* Sd_6 ) 4.95228814E-04 2 -1000011 1000011 # BR(hh_4 -> Se_1^* Se_1 ) 1.05303103E-02 2 -1000011 1000013 # BR(hh_4 -> Se_1^* Se_2 ) 1.05303103E-02 2 -1000013 1000011 # BR(hh_4 -> Se_2^* Se_1 ) 1.83990056E-02 2 -1000013 1000013 # BR(hh_4 -> Se_2^* Se_2 ) 3.36268576E-02 2 -1000015 1000015 # BR(hh_4 -> Se_3^* Se_3 ) 3.36910642E-02 2 -2000011 2000011 # BR(hh_4 -> Se_4^* Se_4 ) 4.97675620E-03 2 -2000013 2000013 # BR(hh_4 -> Se_5^* Se_5 ) 5.00175323E-03 2 -2000015 2000015 # BR(hh_4 -> Se_6^* Se_6 ) 7.56640935E-03 2 -1000002 1000002 # BR(hh_4 -> Su_1^* Su_1 ) 8.81322172E-03 2 -1000004 1000004 # BR(hh_4 -> Su_2^* Su_2 ) 5.47609357E-03 2 -1000006 1000006 # BR(hh_4 -> Su_3^* Su_3 ) 5.47593805E-03 2 -2000002 2000002 # BR(hh_4 -> Su_4^* Su_4 ) 7.48560352E-03 2 -2000004 2000004 # BR(hh_4 -> Su_5^* Su_5 ) 7.48483286E-03 2 -2000006 2000006 # BR(hh_4 -> Su_6^* Su_6 ) 3.46018325E-02 2 -1000012 1000012 # BR(hh_4 -> Sv_1^* Sv_1 ) 3.36355276E-02 2 -1000014 1000014 # BR(hh_4 -> Sv_2^* Sv_2 ) 3.36316225E-02 2 -1000016 1000016 # BR(hh_4 -> Sv_3^* Sv_3 ) 1.52053137E-01 2 -2000012 2000012 # BR(hh_4 -> Sv_4^* Sv_4 ) 1.52053116E-01 2 -2000014 2000014 # BR(hh_4 -> Sv_5^* Sv_5 ) 1.52046707E-01 2 -2000016 2000016 # BR(hh_4 -> Sv_6^* Sv_6 ) 1.17782614E-02 2 -24 24 # BR(hh_4 -> VWm VWm^* ) 5.87582558E-03 2 23 23 # BR(hh_4 -> VZ VZ ) DECAY 36 4.34727529E+01 # Ah_3 # BR NDA ID1 ID2 2.98430758E-04 2 1000022 1000023 # BR(Ah_3 -> Chi_1 Chi_2 ) 2.60764037E-04 2 -3 3 # BR(Ah_3 -> Fd_2^* Fd_2 ) 7.00183317E-01 2 -5 5 # BR(Ah_3 -> Fd_3^* Fd_3 ) 4.05741536E-04 2 -13 13 # BR(Ah_3 -> Fe_2^* Fe_2 ) 1.17259073E-01 2 -15 15 # BR(Ah_3 -> Fe_3^* Fe_3 ) 1.18838066E-03 2 -6 6 # BR(Ah_3 -> Fu_3^* Fu_3 ) 9.01653536E-02 2 -1000011 1000013 # BR(Ah_3 -> Se_1^* Se_2 ) 9.01653536E-02 2 -1000013 1000011 # BR(Ah_3 -> Se_2^* Se_1 ) DECAY 236 3.46208111E-07 # Ah_4 # BR NDA ID1 ID2 1.27958855E-04 2 1000024 -1000024 # BR(Ah_4 -> Cha_1^* Cha_1 ) 2.80026892E-03 2 1000022 1000022 # BR(Ah_4 -> Chi_1 Chi_1 ) 5.59418139E-02 2 1000022 1000025 # BR(Ah_4 -> Chi_1 Chi_3 ) 5.51353722E-02 2 -5 5 # BR(Ah_4 -> Fd_3^* Fd_3 ) 1.57913492E-02 2 -15 15 # BR(Ah_4 -> Fe_3^* Fe_3 ) 4.74563191E-03 2 -6 6 # BR(Ah_4 -> Fu_3^* Fu_3 ) 9.11203629E-02 2 25 23 # BR(Ah_4 -> hh_1 VZ ) 7.56630409E-02 2 35 23 # BR(Ah_4 -> hh_2 VZ ) 2.27138667E-01 2 225 23 # BR(Ah_4 -> hh_3 VZ ) 2.29188571E-01 2 -37 24 # BR(Ah_4 -> Hpm_2 VWm^* ) 2.29188571E-01 2 37 -24 # BR(Ah_4 -> Hpm_2^* VWm ) 6.48908486E-03 2 -1000011 1000013 # BR(Ah_4 -> Se_1^* Se_2 ) 6.48908486E-03 2 -1000013 1000011 # BR(Ah_4 -> Se_2^* Se_1 ) DECAY 37 3.98756403E+01 # Hpm_2 # BR NDA ID1 ID2 4.41617700E-04 2 1000022 1000024 # BR(Hpm_2^* -> Chi_1 Cha_1^* ) 2.44333076E-04 2 4 -3 # BR(Hpm_2^* -> Fu_2 Fd_2^* ) 1.17431191E-03 2 4 -5 # BR(Hpm_2^* -> Fu_2 Fd_3^* ) 6.79071821E-01 2 6 -5 # BR(Hpm_2^* -> Fu_3 Fd_3^* ) 1.27536515E-01 2 12 -15 # BR(Hpm_2^* -> Fv_1 Fe_3^* ) 2.38033899E-04 2 14 -13 # BR(Hpm_2^* -> Fv_2 Fe_2^* ) 2.03269791E-04 2 16 -13 # BR(Hpm_2^* -> Fv_3 Fe_2^* ) 1.62731896E-01 2 1000012 -1000011 # BR(Hpm_2^* -> Sv_1 Se_1^* ) 2.83328840E-02 2 1000012 -1000013 # BR(Hpm_2^* -> Sv_1 Se_2^* ) DECAY 1000001 9.96079543E+00 # Sd_1 # BR NDA ID1 ID2 3.22147968E-01 2 6 -1000024 # BR(Sd_1 -> Fu_3 Cha_1 ) 8.26293378E-02 2 5 1000022 # BR(Sd_1 -> Fd_3 Chi_1 ) 1.67588649E-01 2 5 1000023 # BR(Sd_1 -> Fd_3 Chi_2 ) 4.23226521E-01 2 1000002 -24 # BR(Sd_1 -> Su_1 VWm ) # BR NDA ID1 ID2 ID3 1.30688210E-03 3 25 -1000024 6 # BR(Sd_1 -> hh_1 Cha_1 Fu_3 ) 1.50780738E-04 3 25 1000023 5 # BR(Sd_1 -> hh_1 Chi_2 Fd_3 ) 1.23940959E-04 3 5 1000011 -15 # BR(Sd_1 -> Fd_3 Se_1 Fe_3^* ) 1.74079841E-03 3 1000002 5 -6 # BR(Sd_1 -> Su_1 Fd_3 Fu_3^* ) 1.15487277E-04 3 6 12 1000011 # BR(Sd_1 -> Fu_3 Fv_1 Se_1 ) DECAY 1000003 2.53676130E+01 # Sd_2 # BR NDA ID1 ID2 2.36168696E-01 2 6 -1000024 # BR(Sd_2 -> Fu_3 Cha_1 ) 1.07384343E-04 2 3 1000023 # BR(Sd_2 -> Fd_2 Chi_2 ) 1.65157674E-02 2 5 1000022 # BR(Sd_2 -> Fd_3 Chi_1 ) 1.22450552E-01 2 5 1000023 # BR(Sd_2 -> Fd_3 Chi_2 ) 8.62470461E-04 2 5 1000035 # BR(Sd_2 -> Fd_3 Chi_4 ) 9.63759473E-04 2 5 9000001 # BR(Sd_2 -> Fd_3 Chi_5 ) 6.17244512E-01 2 1000002 -24 # BR(Sd_2 -> Su_1 VWm ) # BR NDA ID1 ID2 ID3 7.40046764E-04 3 25 -1000024 6 # BR(Sd_2 -> hh_1 Cha_1 Fu_3 ) 3.96178279E-03 3 1000002 5 -6 # BR(Sd_2 -> Su_1 Fd_3 Fu_3^* ) 2.02745187E-04 3 6 15 -1000012 # BR(Sd_2 -> Fu_3 Fe_3 Sv_1^* ) 2.22745821E-04 3 6 12 1000011 # BR(Sd_2 -> Fu_3 Fv_1 Se_1 ) DECAY 1000005 1.18200124E+00 # Sd_3 # BR NDA ID1 ID2 1.22716126E-04 2 4 -1000024 # BR(Sd_3 -> Fu_2 Cha_1 ) 1.48034244E-04 2 4 -1000037 # BR(Sd_3 -> Fu_2 Cha_2 ) 9.92210325E-01 2 3 1000022 # BR(Sd_3 -> Fd_2 Chi_1 ) 3.07476572E-04 2 3 1000025 # BR(Sd_3 -> Fd_2 Chi_3 ) 1.17320244E-04 2 3 9000001 # BR(Sd_3 -> Fd_2 Chi_5 ) # BR NDA ID1 ID2 ID3 1.86407606E-04 3 3 5 -1000001 # BR(Sd_3 -> Fd_2 Fd_3 Sd_1^* ) 4.18638545E-04 3 3 15 -1000011 # BR(Sd_3 -> Fd_2 Fe_3 Se_1^* ) 2.78912840E-03 3 6 3 -1000002 # BR(Sd_3 -> Fu_3 Fd_2 Su_1^* ) 1.64538280E-04 3 1000001 3 -5 # BR(Sd_3 -> Sd_1 Fd_2 Fd_3^* ) 1.05326991E-03 3 3 1000011 -15 # BR(Sd_3 -> Fd_2 Se_1 Fe_3^* ) 1.75892866E-03 3 1000002 3 -6 # BR(Sd_3 -> Su_1 Fd_2 Fu_3^* ) DECAY 2000001 1.18145996E+00 # Sd_4 # BR NDA ID1 ID2 9.92717578E-01 2 1 1000022 # BR(Sd_4 -> Fd_1 Chi_1 ) 3.07678557E-04 2 1 1000025 # BR(Sd_4 -> Fd_1 Chi_3 ) # BR NDA ID1 ID2 ID3 1.86823974E-04 3 1 5 -1000001 # BR(Sd_4 -> Fd_1 Fd_3 Sd_1^* ) 4.18860365E-04 3 1 15 -1000011 # BR(Sd_4 -> Fd_1 Fe_3 Se_1^* ) 2.78815061E-03 3 6 1 -1000002 # BR(Sd_4 -> Fu_3 Fd_1 Su_1^* ) 1.64894850E-04 3 1000001 1 -5 # BR(Sd_4 -> Sd_1 Fd_1 Fd_3^* ) 1.05386780E-03 3 1 1000011 -15 # BR(Sd_4 -> Fd_1 Se_1 Fe_3^* ) 1.76180927E-03 3 1000002 1 -6 # BR(Sd_4 -> Su_1 Fd_1 Fu_3^* ) DECAY 2000003 2.24727471E+01 # Sd_5 # BR NDA ID1 ID2 8.44374618E-03 2 2 -1000024 # BR(Sd_5 -> Fu_1 Cha_1 ) 6.43253002E-01 2 4 -1000024 # BR(Sd_5 -> Fu_2 Cha_1 ) 8.09181324E-04 2 4 -1000037 # BR(Sd_5 -> Fu_2 Cha_2 ) 1.94216716E-04 2 1 1000022 # BR(Sd_5 -> Fd_1 Chi_1 ) 4.19618686E-03 2 1 1000023 # BR(Sd_5 -> Fd_1 Chi_2 ) 1.48949450E-02 2 3 1000022 # BR(Sd_5 -> Fd_2 Chi_1 ) 3.21815533E-01 2 3 1000023 # BR(Sd_5 -> Fd_2 Chi_2 ) 2.74255055E-04 2 3 9000001 # BR(Sd_5 -> Fd_2 Chi_5 ) 2.47620330E-04 2 5 1000023 # BR(Sd_5 -> Fd_3 Chi_2 ) 1.60269445E-04 2 1000002 -24 # BR(Sd_5 -> Su_1 VWm ) # BR NDA ID1 ID2 ID3 3.74228840E-04 3 3 5 -1000001 # BR(Sd_5 -> Fd_2 Fd_3 Sd_1^* ) 2.49802841E-04 3 3 5 -1000003 # BR(Sd_5 -> Fd_2 Fd_3 Sd_2^* ) 7.20229259E-04 3 6 3 -1000002 # BR(Sd_5 -> Fu_3 Fd_2 Su_1^* ) 3.95719844E-04 3 1000001 3 -5 # BR(Sd_5 -> Sd_1 Fd_2 Fd_3^* ) 2.38938840E-04 3 1000003 3 -5 # BR(Sd_5 -> Sd_2 Fd_2 Fd_3^* ) 1.50325672E-03 3 1000002 3 -6 # BR(Sd_5 -> Su_1 Fd_2 Fu_3^* ) 2.20531858E-04 3 1000004 3 -6 # BR(Sd_5 -> Su_2 Fd_2 Fu_3^* ) 1.27516685E-04 3 4 11 -1000016 # BR(Sd_5 -> Fu_2 Fe_1 Sv_3^* ) 1.28540105E-04 3 4 13 -1000014 # BR(Sd_5 -> Fu_2 Fe_2 Sv_2^* ) 1.82256642E-04 3 4 14 1000015 # BR(Sd_5 -> Fu_2 Fv_2 Se_3 ) 1.54638874E-04 3 4 14 2000011 # BR(Sd_5 -> Fu_2 Fv_2 Se_4 ) 1.55638627E-04 3 4 16 1000015 # BR(Sd_5 -> Fu_2 Fv_3 Se_3 ) 1.81085906E-04 3 4 16 2000011 # BR(Sd_5 -> Fu_2 Fv_3 Se_4 ) DECAY 2000005 2.28503644E+01 # Sd_6 # BR NDA ID1 ID2 6.32789190E-01 2 2 -1000024 # BR(Sd_6 -> Fu_1 Cha_1 ) 7.90818545E-04 2 2 -1000037 # BR(Sd_6 -> Fu_1 Cha_2 ) 8.30604247E-03 2 4 -1000024 # BR(Sd_6 -> Fu_2 Cha_1 ) 1.46614530E-02 2 1 1000022 # BR(Sd_6 -> Fd_1 Chi_1 ) 3.16783308E-01 2 1 1000023 # BR(Sd_6 -> Fd_1 Chi_2 ) 2.59490308E-04 2 1 9000001 # BR(Sd_6 -> Fd_1 Chi_5 ) 1.91246898E-04 2 3 1000022 # BR(Sd_6 -> Fd_2 Chi_1 ) 4.13218323E-03 2 3 1000023 # BR(Sd_6 -> Fd_2 Chi_2 ) # BR NDA ID1 ID2 ID3 3.70120878E-04 3 1 5 -1000001 # BR(Sd_6 -> Fd_1 Fd_3 Sd_1^* ) 2.47274697E-04 3 1 5 -1000003 # BR(Sd_6 -> Fd_1 Fd_3 Sd_2^* ) 7.12126954E-04 3 6 1 -1000002 # BR(Sd_6 -> Fu_3 Fd_1 Su_1^* ) 3.91207231E-04 3 1000001 1 -5 # BR(Sd_6 -> Sd_1 Fd_1 Fd_3^* ) 2.36377284E-04 3 1000003 1 -5 # BR(Sd_6 -> Sd_2 Fd_1 Fd_3^* ) 1.48395329E-03 3 1000002 1 -6 # BR(Sd_6 -> Su_1 Fd_1 Fu_3^* ) 2.18315022E-04 3 1000004 1 -6 # BR(Sd_6 -> Su_2 Fd_1 Fu_3^* ) 1.25460891E-04 3 2 11 -1000016 # BR(Sd_6 -> Fu_1 Fe_1 Sv_3^* ) 1.26467736E-04 3 2 13 -1000014 # BR(Sd_6 -> Fu_1 Fe_2 Sv_2^* ) 1.79326862E-04 3 2 14 1000015 # BR(Sd_6 -> Fu_1 Fv_2 Se_3 ) 1.52153163E-04 3 2 14 2000011 # BR(Sd_6 -> Fu_1 Fv_2 Se_4 ) 1.53136733E-04 3 2 16 1000015 # BR(Sd_6 -> Fu_1 Fv_3 Se_3 ) 1.78175077E-04 3 2 16 2000011 # BR(Sd_6 -> Fu_1 Fv_3 Se_4 ) 1.67229329E-02 3 6 12 1000013 # BR(Sd_6 -> Fu_3 Fv_1 Se_2 ) DECAY 1000002 3.42671600E+00 # Su_1 # BR NDA ID1 ID2 7.75522197E-01 2 6 1000022 # BR(Su_1 -> Fu_3 Chi_1 ) 6.89078834E-02 2 6 1000023 # BR(Su_1 -> Fu_3 Chi_2 ) 1.61183015E-04 2 1000024 3 # BR(Su_1 -> Cha_1^* Fd_2 ) 1.49453286E-01 2 1000024 5 # BR(Su_1 -> Cha_1^* Fd_3 ) # BR NDA ID1 ID2 ID3 3.20947348E-03 3 25 1000022 6 # BR(Su_1 -> hh_1 Chi_1 Fu_3 ) 4.28359868E-04 3 25 1000023 6 # BR(Su_1 -> hh_1 Chi_2 Fu_3 ) 2.55200280E-04 3 5 12 -1000011 # BR(Su_1 -> Fd_3 Fv_1 Se_1^* ) 6.28712228E-04 3 25 5 1000024 # BR(Su_1 -> hh_1 Fd_3 Cha_1^* ) 1.32888385E-04 3 5 1000012 -15 # BR(Su_1 -> Fd_3 Sv_1 Fe_3^* ) 4.08606983E-04 3 6 15 -1000011 # BR(Su_1 -> Fu_3 Fe_3 Se_1^* ) 6.54088145E-04 3 6 1000011 -15 # BR(Su_1 -> Fu_3 Se_1 Fe_3^* ) DECAY 1000004 3.32925788E+01 # Su_2 # BR NDA ID1 ID2 1.44244371E-02 2 6 1000022 # BR(Su_2 -> Fu_3 Chi_1 ) 1.30113072E-01 2 6 1000023 # BR(Su_2 -> Fu_3 Chi_2 ) 1.85423396E-04 2 1000024 3 # BR(Su_2 -> Cha_1^* Fd_2 ) 2.69495012E-01 2 1000024 5 # BR(Su_2 -> Cha_1^* Fd_3 ) 1.93959301E-03 2 1000037 5 # BR(Su_2 -> Cha_2^* Fd_3 ) 2.46029776E-01 2 1000002 25 # BR(Su_2 -> Su_1 hh_1 ) 1.02074776E-04 2 1000002 35 # BR(Su_2 -> Su_1 hh_2 ) 3.20935119E-03 2 1000001 24 # BR(Su_2 -> Sd_1 VWm^* ) 3.31750526E-01 2 1000002 23 # BR(Su_2 -> Su_1 VZ ) # BR NDA ID1 ID2 ID3 6.37421340E-04 3 25 1000023 6 # BR(Su_2 -> hh_1 Chi_2 Fu_3 ) 5.87437651E-04 3 25 5 1000024 # BR(Su_2 -> hh_1 Fd_3 Cha_1^* ) 1.32668872E-04 3 6 15 -1000013 # BR(Su_2 -> Fu_3 Fe_3 Se_2^* ) 2.11209470E-04 3 6 1000011 -15 # BR(Su_2 -> Fu_3 Se_1 Fe_3^* ) 6.22664490E-04 3 1000002 6 -6 # BR(Su_2 -> Su_1 Fu_3 Fu_3^* ) DECAY 1000006 5.12556984E+00 # Su_3 # BR NDA ID1 ID2 9.91947493E-01 2 4 1000022 # BR(Su_3 -> Fu_2 Chi_1 ) 1.03068588E-04 2 1000024 3 # BR(Su_3 -> Cha_1^* Fd_2 ) # BR NDA ID1 ID2 ID3 4.00805009E-04 3 5 4 -1000001 # BR(Su_3 -> Fd_3 Fu_2 Sd_1^* ) 1.83214749E-04 3 5 4 -1000003 # BR(Su_3 -> Fd_3 Fu_2 Sd_2^* ) 4.36807923E-04 3 4 15 -1000011 # BR(Su_3 -> Fu_2 Fe_3 Se_1^* ) 2.51640070E-03 3 4 6 -1000002 # BR(Su_3 -> Fu_2 Fu_3 Su_1^* ) 1.20390216E-04 3 4 6 -1000004 # BR(Su_3 -> Fu_2 Fu_3 Su_2^* ) 3.62707588E-04 3 1000001 4 -5 # BR(Su_3 -> Sd_1 Fu_2 Fd_3^* ) 2.00850665E-04 3 1000003 4 -5 # BR(Su_3 -> Sd_2 Fu_2 Fd_3^* ) 1.10745003E-03 3 4 1000011 -15 # BR(Su_3 -> Fu_2 Se_1 Fe_3^* ) 1.73720673E-03 3 1000002 4 -6 # BR(Su_3 -> Su_1 Fu_2 Fu_3^* ) 1.34792262E-04 3 1000004 4 -6 # BR(Su_3 -> Su_2 Fu_2 Fu_3^* ) DECAY 2000002 5.12484422E+00 # Su_4 # BR NDA ID1 ID2 9.92131803E-01 2 2 1000022 # BR(Su_4 -> Fu_1 Chi_1 ) # BR NDA ID1 ID2 ID3 4.02809347E-04 3 5 2 -1000001 # BR(Su_4 -> Fd_3 Fu_1 Sd_1^* ) 1.82034708E-04 3 5 2 -1000003 # BR(Su_4 -> Fd_3 Fu_1 Sd_2^* ) 4.36888816E-04 3 2 15 -1000011 # BR(Su_4 -> Fu_1 Fe_3 Se_1^* ) 2.51718321E-03 3 2 6 -1000002 # BR(Su_4 -> Fu_1 Fu_3 Su_1^* ) 1.20460414E-04 3 2 6 -1000004 # BR(Su_4 -> Fu_1 Fu_3 Su_2^* ) 3.62852475E-04 3 1000001 2 -5 # BR(Su_4 -> Sd_1 Fu_1 Fd_3^* ) 2.00944787E-04 3 1000003 2 -5 # BR(Su_4 -> Sd_2 Fu_1 Fd_3^* ) 1.10766639E-03 3 2 1000011 -15 # BR(Su_4 -> Fu_1 Se_1 Fe_3^* ) 1.73770063E-03 3 1000002 2 -6 # BR(Su_4 -> Su_1 Fu_1 Fu_3^* ) 1.34873697E-04 3 1000004 2 -6 # BR(Su_4 -> Su_2 Fu_1 Fu_3^* ) DECAY 2000004 2.25210371E+01 # Su_5 # BR NDA ID1 ID2 1.98848811E-04 2 2 1000022 # BR(Su_5 -> Fu_1 Chi_1 ) 4.44085549E-03 2 2 1000023 # BR(Su_5 -> Fu_1 Chi_2 ) 1.44075511E-02 2 4 1000022 # BR(Su_5 -> Fu_2 Chi_1 ) 3.21570470E-01 2 4 1000023 # BR(Su_5 -> Fu_2 Chi_2 ) 1.93367849E-04 2 4 9000001 # BR(Su_5 -> Fu_2 Chi_5 ) 7.97246976E-03 2 1000024 1 # BR(Su_5 -> Cha_1^* Fd_1 ) 6.44197866E-01 2 1000024 3 # BR(Su_5 -> Cha_1^* Fd_2 ) 4.82581849E-04 2 1000024 5 # BR(Su_5 -> Cha_1^* Fd_3 ) 2.24558508E-04 2 1000037 3 # BR(Su_5 -> Cha_2^* Fd_2 ) # BR NDA ID1 ID2 ID3 3.65300608E-04 3 5 4 -1000001 # BR(Su_5 -> Fd_3 Fu_2 Sd_1^* ) 2.38650383E-04 3 5 4 -1000003 # BR(Su_5 -> Fd_3 Fu_2 Sd_2^* ) 3.15785244E-04 3 3 1000014 -13 # BR(Su_5 -> Fd_2 Sv_2 Fe_2^* ) 3.13860439E-04 3 3 1000016 -11 # BR(Su_5 -> Fd_2 Sv_3 Fe_1^* ) 1.14901112E-03 3 4 6 -1000002 # BR(Su_5 -> Fu_2 Fu_3 Su_1^* ) 2.28558119E-04 3 4 6 -1000004 # BR(Su_5 -> Fu_2 Fu_3 Su_2^* ) 3.84531279E-04 3 1000001 4 -5 # BR(Su_5 -> Sd_1 Fu_2 Fd_3^* ) 2.31199298E-04 3 1000003 4 -5 # BR(Su_5 -> Sd_2 Fu_2 Fd_3^* ) 1.47353125E-03 3 1000002 4 -6 # BR(Su_5 -> Su_1 Fu_2 Fu_3^* ) 2.12585255E-04 3 1000004 4 -6 # BR(Su_5 -> Su_2 Fu_2 Fu_3^* ) DECAY 2000006 2.25164669E+01 # Su_6 # BR NDA ID1 ID2 1.44055981E-02 2 2 1000022 # BR(Su_6 -> Fu_1 Chi_1 ) 3.21730208E-01 2 2 1000023 # BR(Su_6 -> Fu_1 Chi_2 ) 1.91277500E-04 2 2 9000001 # BR(Su_6 -> Fu_1 Chi_5 ) 1.99027251E-04 2 4 1000022 # BR(Su_6 -> Fu_2 Chi_1 ) 4.44238932E-03 2 4 1000023 # BR(Su_6 -> Fu_2 Chi_2 ) 6.44911294E-01 2 1000024 1 # BR(Su_6 -> Cha_1^* Fd_1 ) 7.98556550E-03 2 1000024 3 # BR(Su_6 -> Cha_1^* Fd_2 ) 2.03087247E-04 2 1000037 1 # BR(Su_6 -> Cha_2^* Fd_1 ) # BR NDA ID1 ID2 ID3 3.68647147E-04 3 5 2 -1000001 # BR(Su_6 -> Fd_3 Fu_1 Sd_1^* ) 2.39005854E-04 3 5 2 -1000003 # BR(Su_6 -> Fd_3 Fu_1 Sd_2^* ) 3.16198161E-04 3 1 1000014 -13 # BR(Su_6 -> Fd_1 Sv_2 Fe_2^* ) 3.14271041E-04 3 1 1000016 -11 # BR(Su_6 -> Fd_1 Sv_3 Fe_1^* ) 1.15363657E-03 3 2 6 -1000002 # BR(Su_6 -> Fu_1 Fu_3 Su_1^* ) 2.30070859E-04 3 2 6 -1000004 # BR(Su_6 -> Fu_1 Fu_3 Su_2^* ) 3.86519506E-04 3 1000001 2 -5 # BR(Su_6 -> Sd_1 Fu_1 Fd_3^* ) 2.32574205E-04 3 1000003 2 -5 # BR(Su_6 -> Sd_2 Fu_1 Fd_3^* ) 1.47873093E-03 3 1000002 2 -6 # BR(Su_6 -> Su_1 Fu_1 Fu_3^* ) 2.14015906E-04 3 1000004 2 -6 # BR(Su_6 -> Su_2 Fu_1 Fu_3^* ) DECAY 1000011 6.81983478E-03 # Se_1 # BR NDA ID1 ID2 1.00000000E+00 2 15 1000022 # BR(Se_1 -> Fe_3 Chi_1 ) DECAY 1000013 6.20481604E+00 # Se_2 # BR NDA ID1 ID2 9.41338341E-02 2 15 1000022 # BR(Se_2 -> Fe_3 Chi_1 ) 2.61819693E-01 2 1000011 25 # BR(Se_2 -> Se_1 hh_1 ) 6.43965930E-01 2 1000011 23 # BR(Se_2 -> Se_1 VZ ) DECAY 1000015 1.28259271E+00 # Se_3 # BR NDA ID1 ID2 1.30578601E-01 2 14 -1000024 # BR(Se_3 -> Fv_2 Cha_1 ) 1.11508004E-01 2 16 -1000024 # BR(Se_3 -> Fv_3 Cha_1 ) 6.35435487E-01 2 13 1000022 # BR(Se_3 -> Fe_2 Chi_1 ) 1.22146014E-01 2 13 1000023 # BR(Se_3 -> Fe_2 Chi_2 ) # BR NDA ID1 ID2 ID3 2.01983422E-04 3 13 15 -1000011 # BR(Se_3 -> Fe_2 Fe_3 Se_1^* ) 1.25525447E-04 3 1000011 13 -15 # BR(Se_3 -> Se_1 Fe_2 Fe_3^* ) DECAY 2000011 1.29191289E+00 # Se_4 # BR NDA ID1 ID2 1.12910159E-01 2 14 -1000024 # BR(Se_4 -> Fv_2 Cha_1 ) 1.32220559E-01 2 16 -1000024 # BR(Se_4 -> Fv_3 Cha_1 ) 6.30863454E-01 2 11 1000022 # BR(Se_4 -> Fe_1 Chi_1 ) 1.23677047E-01 2 11 1000023 # BR(Se_4 -> Fe_1 Chi_2 ) # BR NDA ID1 ID2 ID3 2.01219498E-04 3 11 15 -1000011 # BR(Se_4 -> Fe_1 Fe_3 Se_1^* ) 1.24677530E-04 3 1000011 11 -15 # BR(Se_4 -> Se_1 Fe_1 Fe_3^* ) DECAY 2000013 4.21664219E+00 # Se_5 # BR NDA ID1 ID2 9.97225635E-01 2 13 1000022 # BR(Se_5 -> Fe_2 Chi_1 ) 5.42255834E-04 2 1000015 25 # BR(Se_5 -> Se_3 hh_1 ) 4.67504595E-04 2 1000015 23 # BR(Se_5 -> Se_3 VZ ) 8.15013204E-04 2 1000014 -24 # BR(Se_5 -> Sv_2 VWm ) # BR NDA ID1 ID2 ID3 2.40391813E-04 3 13 15 -1000011 # BR(Se_5 -> Fe_2 Fe_3 Se_1^* ) 4.18638594E-04 3 1000011 13 -15 # BR(Se_5 -> Se_1 Fe_2 Fe_3^* ) DECAY 2000015 4.22162681E+00 # Se_6 # BR NDA ID1 ID2 9.99322767E-01 2 11 1000022 # BR(Se_6 -> Fe_1 Chi_1 ) # BR NDA ID1 ID2 ID3 2.41385617E-04 3 11 15 -1000011 # BR(Se_6 -> Fe_1 Fe_3 Se_1^* ) 4.20705258E-04 3 1000011 11 -15 # BR(Se_6 -> Se_1 Fe_1 Fe_3^* ) DECAY 1000012 7.79246448E+00 # Sv_1 # BR NDA ID1 ID2 4.21334974E-02 2 12 1000022 # BR(Sv_1 -> Fv_1 Chi_1 ) 9.57392102E-01 2 1000011 24 # BR(Sv_1 -> Se_1 VWm^* ) # BR NDA ID1 ID2 ID3 4.65675791E-04 3 1000011 6 -5 # BR(Sv_1 -> Se_1 Fu_3 Fd_3^* ) DECAY 1000014 1.40820536E+00 # Sv_2 # BR NDA ID1 ID2 3.22456590E-01 2 14 1000022 # BR(Sv_2 -> Fv_2 Chi_1 ) 7.21293845E-02 2 14 1000023 # BR(Sv_2 -> Fv_2 Chi_2 ) 2.75362811E-01 2 16 1000022 # BR(Sv_2 -> Fv_3 Chi_1 ) 6.15951128E-02 2 16 1000023 # BR(Sv_2 -> Fv_3 Chi_2 ) 2.68133133E-01 2 1000024 13 # BR(Sv_2 -> Cha_1^* Fe_2 ) # BR NDA ID1 ID2 ID3 1.06836607E-04 3 15 14 -1000011 # BR(Sv_2 -> Fe_3 Fv_2 Se_1^* ) DECAY 1000016 1.41859746E+00 # Sv_3 # BR NDA ID1 ID2 2.73904799E-01 2 14 1000022 # BR(Sv_3 -> Fv_2 Chi_1 ) 6.20790378E-02 2 14 1000023 # BR(Sv_3 -> Fv_2 Chi_2 ) 3.20749223E-01 2 16 1000022 # BR(Sv_3 -> Fv_3 Chi_1 ) 7.26960726E-02 2 16 1000023 # BR(Sv_3 -> Fv_3 Chi_2 ) 2.70246309E-01 2 1000024 11 # BR(Sv_3 -> Cha_1^* Fe_1 ) # BR NDA ID1 ID2 ID3 1.08110752E-04 3 15 16 -1000011 # BR(Sv_3 -> Fe_3 Fv_3 Se_1^* ) DECAY 2000012 8.93193887E-02 # Sv_4 # BR NDA ID1 ID2 2.65963734E-04 2 14 1000022 # BR(Sv_4 -> Fv_2 Chi_1 ) 9.08493029E-04 2 14 1000023 # BR(Sv_4 -> Fv_2 Chi_2 ) 7.15338912E-03 2 14 1000035 # BR(Sv_4 -> Fv_2 Chi_4 ) 6.95435142E-03 2 14 9000001 # BR(Sv_4 -> Fv_2 Chi_5 ) 3.11450040E-04 2 16 1000022 # BR(Sv_4 -> Fv_3 Chi_1 ) 1.06386757E-03 2 16 1000023 # BR(Sv_4 -> Fv_3 Chi_2 ) 8.37679371E-03 2 16 1000035 # BR(Sv_4 -> Fv_3 Chi_4 ) 8.14371569E-03 2 16 9000001 # BR(Sv_4 -> Fv_3 Chi_5 ) 3.97771704E-03 2 1000024 11 # BR(Sv_4 -> Cha_1^* Fe_1 ) 3.01363808E-02 2 1000037 11 # BR(Sv_4 -> Cha_2^* Fe_1 ) 2.30461337E-01 2 1000016 25 # BR(Sv_4 -> Sv_3 hh_1 ) 9.89648905E-04 2 1000016 35 # BR(Sv_4 -> Sv_3 hh_2 ) 4.58534191E-01 2 2000011 24 # BR(Sv_4 -> Se_4 VWm^* ) 2.24115541E-01 2 1000016 23 # BR(Sv_4 -> Sv_3 VZ ) # BR NDA ID1 ID2 ID3 1.17759779E-02 3 2000011 6 -5 # BR(Sv_4 -> Se_4 Fu_3 Fd_3^* ) 1.14862531E-04 3 1000016 5 -5 # BR(Sv_4 -> Sv_3 Fd_3 Fd_3^* ) 6.51995047E-03 3 1000016 6 -6 # BR(Sv_4 -> Sv_3 Fu_3 Fu_3^* ) DECAY 2000014 8.94029143E-02 # Sv_5 # BR NDA ID1 ID2 3.10990030E-04 2 14 1000022 # BR(Sv_5 -> Fv_2 Chi_1 ) 1.06240269E-03 2 14 1000023 # BR(Sv_5 -> Fv_2 Chi_2 ) 8.36896428E-03 2 14 1000035 # BR(Sv_5 -> Fv_2 Chi_4 ) 8.13614317E-03 2 14 9000001 # BR(Sv_5 -> Fv_2 Chi_5 ) 2.65570906E-04 2 16 1000022 # BR(Sv_5 -> Fv_3 Chi_1 ) 9.07242095E-04 2 16 1000023 # BR(Sv_5 -> Fv_3 Chi_2 ) 7.14670315E-03 2 16 1000035 # BR(Sv_5 -> Fv_3 Chi_4 ) 6.94788484E-03 2 16 9000001 # BR(Sv_5 -> Fv_3 Chi_5 ) 3.97225646E-03 2 1000024 13 # BR(Sv_5 -> Cha_1^* Fe_2 ) 3.01084862E-02 2 1000037 13 # BR(Sv_5 -> Cha_2^* Fe_2 ) 2.30474327E-01 2 1000014 25 # BR(Sv_5 -> Sv_2 hh_1 ) 9.88751330E-04 2 1000014 35 # BR(Sv_5 -> Sv_2 hh_2 ) 4.58303175E-01 2 1000015 24 # BR(Sv_5 -> Se_3 VWm^* ) 2.58072124E-04 2 2000013 24 # BR(Sv_5 -> Se_5 VWm^* ) 2.24128395E-01 2 1000014 23 # BR(Sv_5 -> Sv_2 VZ ) # BR NDA ID1 ID2 ID3 1.17800127E-02 3 1000015 6 -5 # BR(Sv_5 -> Se_3 Fu_3 Fd_3^* ) 1.15305167E-04 3 1000014 5 -5 # BR(Sv_5 -> Sv_2 Fd_3 Fd_3^* ) 6.52778596E-03 3 1000014 6 -6 # BR(Sv_5 -> Sv_2 Fu_3 Fu_3^* ) DECAY 2000016 1.11918419E-01 # Sv_6 # BR NDA ID1 ID2 4.04529750E-04 2 12 1000022 # BR(Sv_6 -> Fv_1 Chi_1 ) 1.41632403E-03 2 12 1000023 # BR(Sv_6 -> Fv_1 Chi_2 ) 1.23936040E-02 2 12 1000035 # BR(Sv_6 -> Fv_1 Chi_4 ) 1.20621995E-02 2 12 9000001 # BR(Sv_6 -> Fv_1 Chi_5 ) 2.85943421E-03 2 1000024 15 # BR(Sv_6 -> Cha_1^* Fe_3 ) 2.41002522E-02 2 1000037 15 # BR(Sv_6 -> Cha_2^* Fe_3 ) 2.35877440E-01 2 1000012 25 # BR(Sv_6 -> Sv_1 hh_1 ) 7.97453786E-04 2 1000012 35 # BR(Sv_6 -> Sv_1 hh_2 ) 1.08722310E-01 2 1000011 24 # BR(Sv_6 -> Se_1 VWm^* ) 3.51513049E-01 2 1000013 24 # BR(Sv_6 -> Se_2 VWm^* ) 2.25060774E-01 2 1000012 23 # BR(Sv_6 -> Sv_1 VZ ) # BR NDA ID1 ID2 ID3 1.26397028E-04 3 25 1000023 12 # BR(Sv_6 -> hh_1 Chi_2 Fv_1 ) 2.76490394E-04 3 25 15 1000024 # BR(Sv_6 -> hh_1 Fe_3 Cha_1^* ) 1.22036900E-04 3 1000012 15 -15 # BR(Sv_6 -> Sv_1 Fe_3 Fe_3^* ) 1.35493373E-04 3 1000011 12 -15 # BR(Sv_6 -> Se_1 Fv_1 Fe_3^* ) 4.06623411E-03 3 1000011 6 -5 # BR(Sv_6 -> Se_1 Fu_3 Fd_3^* ) 1.08552656E-02 3 1000013 6 -5 # BR(Sv_6 -> Se_2 Fu_3 Fd_3^* ) 3.86635609E-04 3 1000012 5 -5 # BR(Sv_6 -> Sv_1 Fd_3 Fd_3^* ) 8.66894727E-03 3 1000012 6 -6 # BR(Sv_6 -> Sv_1 Fu_3 Fu_3^* ) DECAY 3000012 5.03252493E-01 # Sv_7 # BR NDA ID1 ID2 9.96065996E-03 2 1000012 36 # BR(Sv_7 -> Sv_1 Ah_3 ) 6.19659734E-02 2 2000016 236 # BR(Sv_7 -> Sv_6 Ah_4 ) 9.35315603E-02 2 12 1000035 # BR(Sv_7 -> Fv_1 Chi_4 ) 9.36468673E-02 2 12 9000001 # BR(Sv_7 -> Fv_1 Chi_5 ) 1.87149328E-01 2 1000037 15 # BR(Sv_7 -> Cha_2^* Fe_3 ) 1.21795611E-01 2 1000012 25 # BR(Sv_7 -> Sv_1 hh_1 ) 1.56997882E-04 2 1000012 35 # BR(Sv_7 -> Sv_1 hh_2 ) 9.96049156E-03 2 1000012 225 # BR(Sv_7 -> Sv_1 hh_3 ) 7.17287878E-03 2 2000016 35 # BR(Sv_7 -> Sv_6 hh_2 ) 4.95241692E-03 2 37 1000011 # BR(Sv_7 -> Hpm_2^* Se_1 ) 1.50853968E-02 2 37 1000013 # BR(Sv_7 -> Hpm_2^* Se_2 ) 4.60460825E-02 2 1000011 24 # BR(Sv_7 -> Se_1 VWm^* ) 1.83116061E-01 2 1000013 24 # BR(Sv_7 -> Se_2 VWm^* ) 1.14220887E-01 2 1000012 23 # BR(Sv_7 -> Sv_1 VZ ) # BR NDA ID1 ID2 ID3 1.71682245E-02 3 2000016 1000025 1000025 # BR(Sv_7 -> Sv_6 Chi_3 Chi_3 ) 2.93518654E-04 3 25 1000023 12 # BR(Sv_7 -> hh_1 Chi_2 Fv_1 ) 1.85257237E-04 3 35 1000035 12 # BR(Sv_7 -> hh_2 Chi_4 Fv_1 ) 1.85944572E-04 3 35 9000001 12 # BR(Sv_7 -> hh_2 Chi_5 Fv_1 ) 5.40252465E-04 3 15 6 -1000001 # BR(Sv_7 -> Fe_3 Fu_3 Sd_1^* ) 5.23596742E-04 3 15 6 -1000003 # BR(Sv_7 -> Fe_3 Fu_3 Sd_2^* ) 5.91431379E-04 3 25 15 1000024 # BR(Sv_7 -> hh_1 Fe_3 Cha_1^* ) 3.71361476E-04 3 35 15 1000037 # BR(Sv_7 -> hh_2 Fe_3 Cha_2^* ) 1.79774794E-04 3 15 1000004 -5 # BR(Sv_7 -> Fe_3 Su_2 Fd_3^* ) 1.43316565E-04 3 2000016 11 -11 # BR(Sv_7 -> Sv_6 Fe_1 Fe_1^* ) 1.43316570E-04 3 2000016 13 -13 # BR(Sv_7 -> Sv_6 Fe_2 Fe_2^* ) 1.43556905E-04 3 2000016 15 -15 # BR(Sv_7 -> Sv_6 Fe_3 Fe_3^* ) 1.40036681E-04 3 12 5 -1000001 # BR(Sv_7 -> Fv_1 Fd_3 Sd_1^* ) 7.54038948E-04 3 12 6 -1000004 # BR(Sv_7 -> Fv_1 Fu_3 Su_2^* ) 1.88774533E-04 3 2000016 12 12 # BR(Sv_7 -> Sv_6 Fv_1 Fv_1 ) 1.88373693E-04 3 2000016 14 14 # BR(Sv_7 -> Sv_6 Fv_2 Fv_2 ) 1.88373693E-04 3 2000016 16 16 # BR(Sv_7 -> Sv_6 Fv_3 Fv_3 ) 2.85478310E-03 3 1000011 6 -5 # BR(Sv_7 -> Se_1 Fu_3 Fd_3^* ) 1.12154246E-02 3 1000013 6 -5 # BR(Sv_7 -> Se_2 Fu_3 Fd_3^* ) 3.72890382E-04 3 2000016 1 -1 # BR(Sv_7 -> Sv_6 Fd_1 Fd_1^* ) 3.72890382E-04 3 2000016 3 -3 # BR(Sv_7 -> Sv_6 Fd_2 Fd_2^* ) 3.72891494E-04 3 2000016 5 -5 # BR(Sv_7 -> Sv_6 Fd_3 Fd_3^* ) 1.10896132E-02 3 1000012 6 -6 # BR(Sv_7 -> Sv_1 Fu_3 Fu_3^* ) DECAY 3000014 5.15144197E-01 # Sv_8 # BR NDA ID1 ID2 9.46440610E-03 2 1000016 36 # BR(Sv_8 -> Sv_3 Ah_3 ) 6.05379804E-02 2 2000012 236 # BR(Sv_8 -> Sv_4 Ah_4 ) 4.20830371E-02 2 14 1000035 # BR(Sv_8 -> Fv_2 Chi_4 ) 4.21444598E-02 2 14 9000001 # BR(Sv_8 -> Fv_2 Chi_5 ) 4.92802662E-02 2 16 1000035 # BR(Sv_8 -> Fv_3 Chi_4 ) 4.93521937E-02 2 16 9000001 # BR(Sv_8 -> Fv_3 Chi_5 ) 1.82807121E-01 2 1000037 11 # BR(Sv_8 -> Cha_2^* Fe_1 ) 1.22972198E-01 2 1000016 25 # BR(Sv_8 -> Sv_3 hh_1 ) 1.67629951E-04 2 1000016 35 # BR(Sv_8 -> Sv_3 hh_2 ) 9.46459400E-03 2 1000016 225 # BR(Sv_8 -> Sv_3 hh_3 ) 6.99229327E-03 2 2000012 35 # BR(Sv_8 -> Sv_4 hh_2 ) 1.89620426E-02 2 37 2000011 # BR(Sv_8 -> Hpm_2^* Se_4 ) 2.38115883E-01 2 2000011 24 # BR(Sv_8 -> Se_4 VWm^* ) 1.18675940E-01 2 1000016 23 # BR(Sv_8 -> Sv_3 VZ ) # BR NDA ID1 ID2 ID3 1.67718398E-02 3 2000012 1000025 1000025 # BR(Sv_8 -> Sv_4 Chi_3 Chi_3 ) 5.27622548E-04 3 11 6 -1000001 # BR(Sv_8 -> Fe_1 Fu_3 Sd_1^* ) 5.11466245E-04 3 11 6 -1000003 # BR(Sv_8 -> Fe_1 Fu_3 Sd_2^* ) 3.62613926E-04 3 35 11 1000037 # BR(Sv_8 -> hh_2 Fe_1 Cha_2^* ) 1.75847836E-04 3 11 1000004 -5 # BR(Sv_8 -> Fe_1 Su_2 Fd_3^* ) 1.40263529E-04 3 2000012 11 -11 # BR(Sv_8 -> Sv_4 Fe_1 Fe_1^* ) 1.40021127E-04 3 2000012 13 -13 # BR(Sv_8 -> Sv_4 Fe_2 Fe_2^* ) 1.40022471E-04 3 2000012 15 -15 # BR(Sv_8 -> Sv_4 Fe_3 Fe_3^* ) 3.39303052E-04 3 14 6 -1000004 # BR(Sv_8 -> Fv_2 Fu_3 Su_2^* ) 3.97332177E-04 3 16 6 -1000004 # BR(Sv_8 -> Fv_3 Fu_3 Su_2^* ) 1.84019997E-04 3 2000012 12 12 # BR(Sv_8 -> Sv_4 Fv_1 Fv_1 ) 1.84103066E-04 3 2000012 14 14 # BR(Sv_8 -> Sv_4 Fv_2 Fv_2 ) 1.84133911E-04 3 2000012 16 16 # BR(Sv_8 -> Sv_4 Fv_3 Fv_3 ) 1.39606530E-02 3 2000011 6 -5 # BR(Sv_8 -> Se_4 Fu_3 Fd_3^* ) 3.64339239E-04 3 2000012 1 -1 # BR(Sv_8 -> Sv_4 Fd_1 Fd_1^* ) 3.64339238E-04 3 2000012 3 -3 # BR(Sv_8 -> Sv_4 Fd_2 Fd_2^* ) 3.64340597E-04 3 2000012 5 -5 # BR(Sv_8 -> Sv_4 Fd_3 Fd_3^* ) 1.09540599E-02 3 1000016 6 -6 # BR(Sv_8 -> Sv_3 Fu_3 Fu_3^* ) DECAY 3000016 5.15123890E-01 # Sv_9 # BR NDA ID1 ID2 9.46578611E-03 2 1000014 36 # BR(Sv_9 -> Sv_2 Ah_3 ) 6.05405103E-02 2 2000014 236 # BR(Sv_9 -> Sv_5 Ah_4 ) 4.92826197E-02 2 14 1000035 # BR(Sv_9 -> Fv_2 Chi_4 ) 4.93545164E-02 2 14 9000001 # BR(Sv_9 -> Fv_2 Chi_5 ) 4.20850468E-02 2 16 1000035 # BR(Sv_9 -> Fv_3 Chi_4 ) 4.21464433E-02 2 16 9000001 # BR(Sv_9 -> Fv_3 Chi_5 ) 1.82815893E-01 2 1000037 13 # BR(Sv_9 -> Cha_2^* Fe_2 ) 1.22963095E-01 2 1000014 25 # BR(Sv_9 -> Sv_2 hh_1 ) 1.67590591E-04 2 1000014 35 # BR(Sv_9 -> Sv_2 hh_2 ) 9.46597241E-03 2 1000014 225 # BR(Sv_9 -> Sv_2 hh_3 ) 6.99259280E-03 2 2000014 35 # BR(Sv_9 -> Sv_5 hh_2 ) 1.89550692E-02 2 37 1000015 # BR(Sv_9 -> Hpm_2^* Se_3 ) 2.37929182E-01 2 1000015 24 # BR(Sv_9 -> Se_3 VWm^* ) 1.68207925E-04 2 2000013 24 # BR(Sv_9 -> Se_5 VWm^* ) 1.18666691E-01 2 1000014 23 # BR(Sv_9 -> Sv_2 VZ ) # BR NDA ID1 ID2 ID3 1.67804380E-02 3 2000014 1000025 1000025 # BR(Sv_9 -> Sv_5 Chi_3 Chi_3 ) 5.27651672E-04 3 13 6 -1000001 # BR(Sv_9 -> Fe_2 Fu_3 Sd_1^* ) 5.11495854E-04 3 13 6 -1000003 # BR(Sv_9 -> Fe_2 Fu_3 Sd_2^* ) 3.62630309E-04 3 35 13 1000037 # BR(Sv_9 -> hh_2 Fe_2 Cha_2^* ) 1.75856747E-04 3 13 1000004 -5 # BR(Sv_9 -> Fe_2 Su_2 Fd_3^* ) 1.40032534E-04 3 2000014 11 -11 # BR(Sv_9 -> Sv_5 Fe_1 Fe_1^* ) 1.40274387E-04 3 2000014 13 -13 # BR(Sv_9 -> Sv_5 Fe_2 Fe_2^* ) 1.40033883E-04 3 2000014 15 -15 # BR(Sv_9 -> Sv_5 Fe_3 Fe_3^* ) 3.97354881E-04 3 14 6 -1000004 # BR(Sv_9 -> Fv_2 Fu_3 Su_2^* ) 3.39322440E-04 3 16 6 -1000004 # BR(Sv_9 -> Fv_3 Fu_3 Su_2^* ) 1.84035053E-04 3 2000014 12 12 # BR(Sv_9 -> Sv_5 Fv_1 Fv_1 ) 1.84148974E-04 3 2000014 14 14 # BR(Sv_9 -> Sv_5 Fv_2 Fv_2 ) 1.84118127E-04 3 2000014 16 16 # BR(Sv_9 -> Sv_5 Fv_3 Fv_3 ) 1.39508206E-02 3 1000015 6 -5 # BR(Sv_9 -> Se_3 Fu_3 Fd_3^* ) 3.64368871E-04 3 2000014 1 -1 # BR(Sv_9 -> Sv_5 Fd_1 Fd_1^* ) 3.64368870E-04 3 2000014 3 -3 # BR(Sv_9 -> Sv_5 Fd_2 Fd_2^* ) 3.64370229E-04 3 2000014 5 -5 # BR(Sv_9 -> Sv_5 Fd_3 Fd_3^* ) 1.09541935E-02 3 1000014 6 -6 # BR(Sv_9 -> Sv_2 Fu_3 Fu_3^* ) DECAY 1000022 0.00000000E+00 # Chi_1 # BR NDA ID1 ID2 DECAY 1000023 1.12476289E+00 # Chi_2 # BR NDA ID1 ID2 1.53030941E-03 2 1000022 25 # BR(Chi_2 -> Chi_1 hh_1 ) 1.20415481E-04 2 1000022 23 # BR(Chi_2 -> Chi_1 VZ ) 1.95909632E-01 2 15 -1000011 # BR(Chi_2 -> Fe_3 Se_1^* ) 1.95909632E-01 2 -15 1000011 # BR(Chi_2 -> Fe_3^* Se_1 ) 1.07705811E-01 2 15 -1000013 # BR(Chi_2 -> Fe_3 Se_2^* ) 1.07705811E-01 2 -15 1000013 # BR(Chi_2 -> Fe_3^* Se_2 ) 1.95404266E-01 2 12 1000012 # BR(Chi_2 -> Fv_1 Sv_1 ) 1.95404266E-01 2 -12 -1000012 # BR(Chi_2 -> Fv_1^* Sv_1^* ) DECAY 1000025 1.84340481E-03 # Chi_3 # BR NDA ID1 ID2 3.11426068E-04 2 -1000024 24 # BR(Chi_3 -> Cha_1 VWm^* ) 3.11426068E-04 2 1000024 -24 # BR(Chi_3 -> Cha_1^* VWm ) 1.64127797E-04 2 1000022 23 # BR(Chi_3 -> Chi_1 VZ ) 2.93574830E-04 2 1000023 23 # BR(Chi_3 -> Chi_2 VZ ) 5.64609044E-02 2 11 -2000011 # BR(Chi_3 -> Fe_1 Se_4^* ) 5.64609044E-02 2 -11 2000011 # BR(Chi_3 -> Fe_1^* Se_4 ) 4.00314371E-03 2 11 -2000015 # BR(Chi_3 -> Fe_1 Se_6^* ) 4.00314371E-03 2 -11 2000015 # BR(Chi_3 -> Fe_1^* Se_6 ) 5.66709581E-02 2 13 -1000015 # BR(Chi_3 -> Fe_2 Se_3^* ) 5.66709581E-02 2 -13 1000015 # BR(Chi_3 -> Fe_2^* Se_3 ) 4.05964835E-03 2 13 -2000013 # BR(Chi_3 -> Fe_2 Se_5^* ) 4.05964835E-03 2 -13 2000013 # BR(Chi_3 -> Fe_2^* Se_5 ) 5.76194691E-02 2 15 -1000011 # BR(Chi_3 -> Fe_3 Se_1^* ) 5.76194691E-02 2 -15 1000011 # BR(Chi_3 -> Fe_3^* Se_1 ) 9.12475301E-02 2 15 -1000013 # BR(Chi_3 -> Fe_3 Se_2^* ) 9.12475301E-02 2 -15 1000013 # BR(Chi_3 -> Fe_3^* Se_2 ) 1.20547162E-01 2 12 1000012 # BR(Chi_3 -> Fv_1 Sv_1 ) 1.20547162E-01 2 -12 -1000012 # BR(Chi_3 -> Fv_1^* Sv_1^* ) 2.93890358E-02 2 14 1000014 # BR(Chi_3 -> Fv_2 Sv_2 ) 2.93890358E-02 2 -14 -1000014 # BR(Chi_3 -> Fv_2^* Sv_2^* ) 2.49994879E-02 2 14 1000016 # BR(Chi_3 -> Fv_2 Sv_3 ) 2.49994879E-02 2 -14 -1000016 # BR(Chi_3 -> Fv_2^* Sv_3^* ) 2.50968587E-02 2 16 1000014 # BR(Chi_3 -> Fv_3 Sv_2 ) 2.50968587E-02 2 -16 -1000014 # BR(Chi_3 -> Fv_3^* Sv_2^* ) 2.92750121E-02 2 16 1000016 # BR(Chi_3 -> Fv_3 Sv_3 ) 2.92750121E-02 2 -16 -1000016 # BR(Chi_3 -> Fv_3^* Sv_3^* ) DECAY 1000035 2.05320242E+01 # Chi_4 # BR NDA ID1 ID2 1.75413713E-01 2 -1000024 24 # BR(Chi_4 -> Cha_1 VWm^* ) 1.75413713E-01 2 1000024 -24 # BR(Chi_4 -> Cha_1^* VWm ) 1.48312063E-02 2 1000022 25 # BR(Chi_4 -> Chi_1 hh_1 ) 1.75850405E-02 2 1000023 25 # BR(Chi_4 -> Chi_2 hh_1 ) 4.70595100E-02 2 1000022 23 # BR(Chi_4 -> Chi_1 VZ ) 1.55734963E-01 2 1000023 23 # BR(Chi_4 -> Chi_2 VZ ) 1.46608357E-04 2 13 -1000015 # BR(Chi_4 -> Fe_2 Se_3^* ) 1.46608357E-04 2 -13 1000015 # BR(Chi_4 -> Fe_2^* Se_3 ) 1.30948077E-04 2 13 -2000013 # BR(Chi_4 -> Fe_2 Se_5^* ) 1.30948077E-04 2 -13 2000013 # BR(Chi_4 -> Fe_2^* Se_5 ) 6.68129767E-02 2 15 -1000011 # BR(Chi_4 -> Fe_3 Se_1^* ) 6.68129767E-02 2 -15 1000011 # BR(Chi_4 -> Fe_3^* Se_1 ) 5.71115636E-02 2 15 -1000013 # BR(Chi_4 -> Fe_3 Se_2^* ) 5.71115636E-02 2 -15 1000013 # BR(Chi_4 -> Fe_3^* Se_2 ) 7.63388787E-02 2 6 -1000002 # BR(Chi_4 -> Fu_3 Su_1^* ) 7.63388787E-02 2 -6 1000002 # BR(Chi_4 -> Fu_3^* Su_1 ) 1.05030902E-04 2 12 1000012 # BR(Chi_4 -> Fv_1 Sv_1 ) 1.05030902E-04 2 -12 -1000012 # BR(Chi_4 -> Fv_1^* Sv_1^* ) # BR NDA ID1 ID2 ID3 1.21020544E-04 3 1000022 -5 5 # BR(Chi_4 -> Chi_1 Fd_3^* Fd_3 ) 1.33535001E-04 3 1000023 -5 5 # BR(Chi_4 -> Chi_2 Fd_3^* Fd_3 ) 1.14819610E-03 3 1000022 -6 6 # BR(Chi_4 -> Chi_1 Fu_3^* Fu_3 ) 2.11153887E-03 3 1000023 -6 6 # BR(Chi_4 -> Chi_2 Fu_3^* Fu_3 ) 4.35281364E-03 3 -1000024 -5 6 # BR(Chi_4 -> Cha_1 Fd_3^* Fu_3 ) 4.35281364E-03 3 1000024 5 -6 # BR(Chi_4 -> Cha_1^* Fd_3 Fu_3^* ) DECAY 9000001 2.26513109E+01 # Chi_5 # BR NDA ID1 ID2 1.57411573E-01 2 -1000024 24 # BR(Chi_5 -> Cha_1 VWm^* ) 1.57411573E-01 2 1000024 -24 # BR(Chi_5 -> Cha_1^* VWm ) 4.24951919E-02 2 1000022 25 # BR(Chi_5 -> Chi_1 hh_1 ) 1.47437955E-01 2 1000023 25 # BR(Chi_5 -> Chi_2 hh_1 ) 1.31230442E-02 2 1000022 23 # BR(Chi_5 -> Chi_1 VZ ) 1.58715375E-02 2 1000023 23 # BR(Chi_5 -> Chi_2 VZ ) 1.61455067E-04 2 11 -2000011 # BR(Chi_5 -> Fe_1 Se_4^* ) 1.61455067E-04 2 -11 2000011 # BR(Chi_5 -> Fe_1^* Se_4 ) 2.78111002E-04 2 13 -1000015 # BR(Chi_5 -> Fe_2 Se_3^* ) 2.78111002E-04 2 -13 1000015 # BR(Chi_5 -> Fe_2^* Se_3 ) 1.55439556E-04 2 13 -2000013 # BR(Chi_5 -> Fe_2 Se_5^* ) 1.55439556E-04 2 -13 2000013 # BR(Chi_5 -> Fe_2^* Se_5 ) 5.72633153E-02 2 15 -1000011 # BR(Chi_5 -> Fe_3 Se_1^* ) 5.72633153E-02 2 -15 1000011 # BR(Chi_5 -> Fe_3^* Se_1 ) 5.43649182E-02 2 15 -1000013 # BR(Chi_5 -> Fe_3 Se_2^* ) 5.43649182E-02 2 -15 1000013 # BR(Chi_5 -> Fe_3^* Se_2 ) 1.15061728E-01 2 6 -1000002 # BR(Chi_5 -> Fu_3 Su_1^* ) 1.15061728E-01 2 -6 1000002 # BR(Chi_5 -> Fu_3^* Su_1 ) 6.04777230E-04 2 12 1000012 # BR(Chi_5 -> Fv_1 Sv_1 ) 6.04777230E-04 2 -12 -1000012 # BR(Chi_5 -> Fv_1^* Sv_1^* ) 2.24943669E-04 2 14 1000014 # BR(Chi_5 -> Fv_2 Sv_2 ) 2.24943669E-04 2 -14 -1000014 # BR(Chi_5 -> Fv_2^* Sv_2^* ) 1.91778885E-04 2 14 1000016 # BR(Chi_5 -> Fv_2 Sv_3 ) 1.91778885E-04 2 -14 -1000016 # BR(Chi_5 -> Fv_2^* Sv_3^* ) 1.92091348E-04 2 16 1000014 # BR(Chi_5 -> Fv_3 Sv_2 ) 1.92091348E-04 2 -16 -1000014 # BR(Chi_5 -> Fv_3^* Sv_2^* ) 2.24577768E-04 2 16 1000016 # BR(Chi_5 -> Fv_3 Sv_3 ) 2.24577768E-04 2 -16 -1000016 # BR(Chi_5 -> Fv_3^* Sv_3^* ) # BR NDA ID1 ID2 ID3 1.03500566E-04 3 1000022 -5 5 # BR(Chi_5 -> Chi_1 Fd_3^* Fd_3 ) 1.35973328E-04 3 1000023 -5 5 # BR(Chi_5 -> Chi_2 Fd_3^* Fd_3 ) 8.41900655E-04 3 1000022 -6 6 # BR(Chi_5 -> Chi_1 Fu_3^* Fu_3 ) 1.15594834E-03 3 1000023 -6 6 # BR(Chi_5 -> Chi_2 Fu_3^* Fu_3 ) 3.12714205E-03 3 -1000024 -5 6 # BR(Chi_5 -> Cha_1 Fd_3^* Fu_3 ) 3.12714205E-03 3 1000024 5 -6 # BR(Chi_5 -> Cha_1^* Fd_3 Fu_3^* ) DECAY 9000002 7.65384774E+01 # Chi_6 # BR NDA ID1 ID2 1.10769164E-03 2 1000035 36 # BR(Chi_6 -> Chi_4 Ah_3 ) 8.33724450E-03 2 9000001 36 # BR(Chi_6 -> Chi_5 Ah_3 ) 9.44627451E-03 2 -1000037 37 # BR(Chi_6 -> Cha_2 Hpm_2^* ) 9.44627451E-03 2 1000037 -37 # BR(Chi_6 -> Cha_2^* Hpm_2 ) 1.16364598E-02 2 -1000037 24 # BR(Chi_6 -> Cha_2 VWm^* ) 1.16364598E-02 2 1000037 -24 # BR(Chi_6 -> Cha_2^* VWm ) 5.46011178E-04 2 1000025 35 # BR(Chi_6 -> Chi_3 hh_2 ) 1.01216214E-02 2 1000035 25 # BR(Chi_6 -> Chi_4 hh_1 ) 8.38893597E-03 2 1000035 225 # BR(Chi_6 -> Chi_4 hh_3 ) 2.25872064E-03 2 9000001 25 # BR(Chi_6 -> Chi_5 hh_1 ) 1.10678447E-03 2 9000001 225 # BR(Chi_6 -> Chi_5 hh_3 ) 2.12809972E-03 2 1000035 23 # BR(Chi_6 -> Chi_4 VZ ) 9.50571895E-03 2 9000001 23 # BR(Chi_6 -> Chi_5 VZ ) 6.02527535E-02 2 1 -2000001 # BR(Chi_6 -> Fd_1 Sd_4^* ) 6.02527535E-02 2 -1 2000001 # BR(Chi_6 -> Fd_1^* Sd_4 ) 8.49789024E-05 2 1 -2000003 # BR(Chi_6 -> Fd_1 Sd_5^* ) 8.49789024E-05 2 -1 2000003 # BR(Chi_6 -> Fd_1^* Sd_5 ) 6.52159830E-03 2 1 -2000005 # BR(Chi_6 -> Fd_1 Sd_6^* ) 6.52159830E-03 2 -1 2000005 # BR(Chi_6 -> Fd_1^* Sd_6 ) 6.02552516E-02 2 3 -1000005 # BR(Chi_6 -> Fd_2 Sd_3^* ) 6.02552516E-02 2 -3 1000005 # BR(Chi_6 -> Fd_2^* Sd_3 ) 6.51762462E-03 2 3 -2000003 # BR(Chi_6 -> Fd_2 Sd_5^* ) 6.51762462E-03 2 -3 2000003 # BR(Chi_6 -> Fd_2^* Sd_5 ) 8.50740932E-05 2 3 -2000005 # BR(Chi_6 -> Fd_2 Sd_6^* ) 8.50740932E-05 2 -3 2000005 # BR(Chi_6 -> Fd_2^* Sd_6 ) 4.89941561E-02 2 5 -1000001 # BR(Chi_6 -> Fd_3 Sd_1^* ) 4.89941561E-02 2 -5 1000001 # BR(Chi_6 -> Fd_3^* Sd_1 ) 2.70656579E-02 2 5 -1000003 # BR(Chi_6 -> Fd_3 Sd_2^* ) 2.70656579E-02 2 -5 1000003 # BR(Chi_6 -> Fd_3^* Sd_2 ) 3.15378396E-02 2 11 -2000011 # BR(Chi_6 -> Fe_1 Se_4^* ) 3.15378396E-02 2 -11 2000011 # BR(Chi_6 -> Fe_1^* Se_4 ) 4.47552212E-03 2 11 -2000015 # BR(Chi_6 -> Fe_1 Se_6^* ) 4.47552212E-03 2 -11 2000015 # BR(Chi_6 -> Fe_1^* Se_6 ) 3.15240389E-02 2 13 -1000015 # BR(Chi_6 -> Fe_2 Se_3^* ) 3.15240389E-02 2 -13 1000015 # BR(Chi_6 -> Fe_2^* Se_3 ) 4.49634869E-03 2 13 -2000013 # BR(Chi_6 -> Fe_2 Se_5^* ) 4.49634869E-03 2 -13 2000013 # BR(Chi_6 -> Fe_2^* Se_5 ) 1.04806095E-02 2 15 -1000011 # BR(Chi_6 -> Fe_3 Se_1^* ) 1.04806095E-02 2 -15 1000011 # BR(Chi_6 -> Fe_3^* Se_1 ) 2.73157810E-02 2 15 -1000013 # BR(Chi_6 -> Fe_3 Se_2^* ) 2.73157810E-02 2 -15 1000013 # BR(Chi_6 -> Fe_3^* Se_2 ) 5.05734632E-03 2 2 -2000002 # BR(Chi_6 -> Fu_1 Su_4^* ) 5.05734632E-03 2 -2 2000002 # BR(Chi_6 -> Fu_1^* Su_4 ) 9.01827765E-05 2 2 -2000004 # BR(Chi_6 -> Fu_1 Su_5^* ) 9.01827765E-05 2 -2 2000004 # BR(Chi_6 -> Fu_1^* Su_5 ) 6.53070792E-03 2 2 -2000006 # BR(Chi_6 -> Fu_1 Su_6^* ) 6.53070792E-03 2 -2 2000006 # BR(Chi_6 -> Fu_1^* Su_6 ) 5.05745225E-03 2 4 -1000006 # BR(Chi_6 -> Fu_2 Su_3^* ) 5.05745225E-03 2 -4 1000006 # BR(Chi_6 -> Fu_2^* Su_3 ) 6.53050967E-03 2 4 -2000004 # BR(Chi_6 -> Fu_2 Su_5^* ) 6.53050967E-03 2 -4 2000004 # BR(Chi_6 -> Fu_2^* Su_5 ) 9.01776544E-05 2 4 -2000006 # BR(Chi_6 -> Fu_2 Su_6^* ) 9.01776544E-05 2 -4 2000006 # BR(Chi_6 -> Fu_2^* Su_6 ) 7.24589792E-03 2 6 -1000002 # BR(Chi_6 -> Fu_3 Su_1^* ) 7.24589792E-03 2 -6 1000002 # BR(Chi_6 -> Fu_3^* Su_1 ) 7.75484698E-03 2 6 -1000004 # BR(Chi_6 -> Fu_3 Su_2^* ) 7.75484698E-03 2 -6 1000004 # BR(Chi_6 -> Fu_3^* Su_2 ) 3.28385287E-02 2 12 1000012 # BR(Chi_6 -> Fv_1 Sv_1 ) 3.28385287E-02 2 -12 -1000012 # BR(Chi_6 -> Fv_1^* Sv_1^* ) 1.69712488E-02 2 14 1000014 # BR(Chi_6 -> Fv_2 Sv_2 ) 1.69712488E-02 2 -14 -1000014 # BR(Chi_6 -> Fv_2^* Sv_2^* ) 1.44901555E-02 2 14 1000016 # BR(Chi_6 -> Fv_2 Sv_3 ) 1.44901555E-02 2 -14 -1000016 # BR(Chi_6 -> Fv_2^* Sv_3^* ) 1.44926509E-02 2 16 1000014 # BR(Chi_6 -> Fv_3 Sv_2 ) 1.44926509E-02 2 -16 -1000014 # BR(Chi_6 -> Fv_3^* Sv_2^* ) 1.69683267E-02 2 16 1000016 # BR(Chi_6 -> Fv_3 Sv_3 ) 1.69683267E-02 2 -16 -1000016 # BR(Chi_6 -> Fv_3^* Sv_3^* ) # BR NDA ID1 ID2 ID3 5.15850238E-04 3 1000035 -6 6 # BR(Chi_6 -> Chi_4 Fu_3^* Fu_3 ) 6.29479434E-04 3 9000001 -6 6 # BR(Chi_6 -> Chi_5 Fu_3^* Fu_3 ) 1.38727247E-04 3 1000023 12 12 # BR(Chi_6 -> Chi_2 Fv_1 Fv_1 ) 7.04450056E-04 3 -1000037 -5 6 # BR(Chi_6 -> Cha_2 Fd_3^* Fu_3 ) 7.04450056E-04 3 1000037 5 -6 # BR(Chi_6 -> Cha_2^* Fd_3 Fu_3^* ) 1.61134971E-04 3 -1000024 -15 12 # BR(Chi_6 -> Cha_1 Fe_3^* Fv_1 ) 1.61134971E-04 3 1000024 15 -12 # BR(Chi_6 -> Cha_1^* Fe_3 Fv_1^* ) 9.45471266E-04 3 1 -1 1000021 # BR(Chi_6 -> Fd_1 Fd_1^* Glu ) 9.44817826E-04 3 3 -3 1000021 # BR(Chi_6 -> Fd_2 Fd_2^* Glu ) 5.93222476E-04 3 5 -5 1000021 # BR(Chi_6 -> Fd_3 Fd_3^* Glu ) 2.60280647E-04 3 2 -2 1000021 # BR(Chi_6 -> Fu_1 Fu_1^* Glu ) 2.60027085E-04 3 4 -4 1000021 # BR(Chi_6 -> Fu_2 Fu_2^* Glu ) DECAY 9000003 1.70032819E+02 # Chi_7 # BR NDA ID1 ID2 4.22874335E-03 2 1000035 36 # BR(Chi_7 -> Chi_4 Ah_3 ) 1.37461656E-03 2 9000001 36 # BR(Chi_7 -> Chi_5 Ah_3 ) 5.58867425E-03 2 -1000037 37 # BR(Chi_7 -> Cha_2 Hpm_2^* ) 5.58867425E-03 2 1000037 -37 # BR(Chi_7 -> Cha_2^* Hpm_2 ) 7.20108343E-03 2 -1000037 24 # BR(Chi_7 -> Cha_2 VWm^* ) 7.20108343E-03 2 1000037 -24 # BR(Chi_7 -> Cha_2^* VWm ) 1.54895129E-03 2 1000035 25 # BR(Chi_7 -> Chi_4 hh_1 ) 1.38368602E-03 2 1000035 225 # BR(Chi_7 -> Chi_4 hh_3 ) 5.34026592E-03 2 9000001 25 # BR(Chi_7 -> Chi_5 hh_1 ) 4.21625388E-03 2 9000001 225 # BR(Chi_7 -> Chi_5 hh_3 ) 5.68118644E-03 2 1000035 23 # BR(Chi_7 -> Chi_4 VZ ) 1.51737918E-03 2 9000001 23 # BR(Chi_7 -> Chi_5 VZ ) 3.89717640E-02 2 1 -2000001 # BR(Chi_7 -> Fd_1 Sd_4^* ) 3.89717640E-02 2 -1 2000001 # BR(Chi_7 -> Fd_1^* Sd_4 ) 5.95029597E-05 2 1 -2000003 # BR(Chi_7 -> Fd_1 Sd_5^* ) 5.95029597E-05 2 -1 2000003 # BR(Chi_7 -> Fd_1^* Sd_5 ) 4.56672914E-03 2 1 -2000005 # BR(Chi_7 -> Fd_1 Sd_6^* ) 4.56672914E-03 2 -1 2000005 # BR(Chi_7 -> Fd_1^* Sd_6 ) 3.89724035E-02 2 3 -1000005 # BR(Chi_7 -> Fd_2 Sd_3^* ) 3.89724035E-02 2 -3 1000005 # BR(Chi_7 -> Fd_2^* Sd_3 ) 4.56369407E-03 2 3 -2000003 # BR(Chi_7 -> Fd_2 Sd_5^* ) 4.56369407E-03 2 -3 2000003 # BR(Chi_7 -> Fd_2^* Sd_5 ) 5.95728347E-05 2 3 -2000005 # BR(Chi_7 -> Fd_2 Sd_6^* ) 5.95728347E-05 2 -3 2000005 # BR(Chi_7 -> Fd_2^* Sd_6 ) 2.96787788E-02 2 5 -1000001 # BR(Chi_7 -> Fd_3 Sd_1^* ) 2.96787788E-02 2 -5 1000001 # BR(Chi_7 -> Fd_3^* Sd_1 ) 1.67083134E-02 2 5 -1000003 # BR(Chi_7 -> Fd_3 Sd_2^* ) 1.67083134E-02 2 -5 1000003 # BR(Chi_7 -> Fd_3^* Sd_2 ) 1.74176146E-02 2 11 -2000011 # BR(Chi_7 -> Fe_1 Se_4^* ) 1.74176146E-02 2 -11 2000011 # BR(Chi_7 -> Fe_1^* Se_4 ) 2.62641944E-03 2 11 -2000015 # BR(Chi_7 -> Fe_1 Se_6^* ) 2.62641944E-03 2 -11 2000015 # BR(Chi_7 -> Fe_1^* Se_6 ) 1.74085002E-02 2 13 -1000015 # BR(Chi_7 -> Fe_2 Se_3^* ) 1.74085002E-02 2 -13 1000015 # BR(Chi_7 -> Fe_2^* Se_3 ) 2.63756701E-03 2 13 -2000013 # BR(Chi_7 -> Fe_2 Se_5^* ) 2.63756701E-03 2 -13 2000013 # BR(Chi_7 -> Fe_2^* Se_5 ) 5.71854845E-03 2 15 -1000011 # BR(Chi_7 -> Fe_3 Se_1^* ) 5.71854845E-03 2 -15 1000011 # BR(Chi_7 -> Fe_3^* Se_1 ) 1.48381145E-02 2 15 -1000013 # BR(Chi_7 -> Fe_3 Se_2^* ) 1.48381145E-02 2 -15 1000013 # BR(Chi_7 -> Fe_3^* Se_2 ) 3.23372541E-03 2 2 -2000002 # BR(Chi_7 -> Fu_1 Su_4^* ) 3.23372541E-03 2 -2 2000002 # BR(Chi_7 -> Fu_1^* Su_4 ) 6.30908812E-05 2 2 -2000004 # BR(Chi_7 -> Fu_1 Su_5^* ) 6.30908812E-05 2 -2 2000004 # BR(Chi_7 -> Fu_1^* Su_5 ) 4.56905856E-03 2 2 -2000006 # BR(Chi_7 -> Fu_1 Su_6^* ) 4.56905856E-03 2 -2 2000006 # BR(Chi_7 -> Fu_1^* Su_6 ) 3.23379724E-03 2 4 -1000006 # BR(Chi_7 -> Fu_2 Su_3^* ) 3.23379724E-03 2 -4 1000006 # BR(Chi_7 -> Fu_2^* Su_3 ) 4.56865682E-03 2 4 -2000004 # BR(Chi_7 -> Fu_2 Su_5^* ) 4.56865682E-03 2 -4 2000004 # BR(Chi_7 -> Fu_2^* Su_5 ) 6.30904858E-05 2 4 -2000006 # BR(Chi_7 -> Fu_2 Su_6^* ) 6.30904858E-05 2 -4 2000006 # BR(Chi_7 -> Fu_2^* Su_6 ) 3.77625385E-03 2 6 -1000002 # BR(Chi_7 -> Fu_3 Su_1^* ) 3.77625385E-03 2 -6 1000002 # BR(Chi_7 -> Fu_3^* Su_1 ) 5.05674622E-03 2 6 -1000004 # BR(Chi_7 -> Fu_3 Su_2^* ) 5.05674622E-03 2 -6 1000004 # BR(Chi_7 -> Fu_3^* Su_2 ) 1.77861536E-02 2 12 1000012 # BR(Chi_7 -> Fv_1 Sv_1 ) 1.77861536E-02 2 -12 -1000012 # BR(Chi_7 -> Fv_1^* Sv_1^* ) 9.38264559E-03 2 14 1000014 # BR(Chi_7 -> Fv_2 Sv_2 ) 9.38264559E-03 2 -14 -1000014 # BR(Chi_7 -> Fv_2^* Sv_2^* ) 8.01162567E-03 2 14 1000016 # BR(Chi_7 -> Fv_2 Sv_3 ) 8.01162567E-03 2 -14 -1000016 # BR(Chi_7 -> Fv_2^* Sv_3^* ) 8.01233946E-03 2 16 1000014 # BR(Chi_7 -> Fv_3 Sv_2 ) 8.01233946E-03 2 -16 -1000014 # BR(Chi_7 -> Fv_3^* Sv_2^* ) 9.38180973E-03 2 16 1000016 # BR(Chi_7 -> Fv_3 Sv_3 ) 9.38180973E-03 2 -16 -1000016 # BR(Chi_7 -> Fv_3^* Sv_3^* ) 3.32666357E-02 2 9000012 2000016 # BR(Chi_7 -> Fv_4 Sv_6 ) 3.32666357E-02 2 -9000012 -2000016 # BR(Chi_7 -> Fv_4^* Sv_6^* ) 3.32666357E-02 2 9000014 2000016 # BR(Chi_7 -> Fv_5 Sv_6 ) 3.32666357E-02 2 -9000014 -2000016 # BR(Chi_7 -> Fv_5^* Sv_6^* ) 3.32686643E-02 2 9000016 2000014 # BR(Chi_7 -> Fv_6 Sv_5 ) 3.32686643E-02 2 -9000016 -2000014 # BR(Chi_7 -> Fv_6^* Sv_5^* ) 3.32686643E-02 2 9000050 2000014 # BR(Chi_7 -> Fv_7 Sv_5 ) 3.32686643E-02 2 -9000050 -2000014 # BR(Chi_7 -> Fv_7^* Sv_5^* ) 3.32685620E-02 2 9000051 2000012 # BR(Chi_7 -> Fv_8 Sv_4 ) 3.32685620E-02 2 -9000051 -2000012 # BR(Chi_7 -> Fv_8^* Sv_4^* ) 3.32685620E-02 2 9000052 2000012 # BR(Chi_7 -> Fv_9 Sv_4 ) 3.32685620E-02 2 -9000052 -2000012 # BR(Chi_7 -> Fv_9^* Sv_4^* ) # BR NDA ID1 ID2 ID3 1.01557896E-04 3 1000023 -15 15 # BR(Chi_7 -> Chi_2 Fe_3^* Fe_3 ) 4.43343629E-04 3 1000035 -6 6 # BR(Chi_7 -> Chi_4 Fu_3^* Fu_3 ) 3.94932880E-04 3 9000001 -6 6 # BR(Chi_7 -> Chi_5 Fu_3^* Fu_3 ) 1.01768950E-04 3 1000023 12 12 # BR(Chi_7 -> Chi_2 Fv_1 Fv_1 ) 5.51100813E-04 3 -1000037 -5 6 # BR(Chi_7 -> Cha_2 Fd_3^* Fu_3 ) 5.51100813E-04 3 1000037 5 -6 # BR(Chi_7 -> Cha_2^* Fd_3 Fu_3^* ) 8.51152069E-05 3 -1000024 -15 12 # BR(Chi_7 -> Cha_1 Fe_3^* Fv_1 ) 8.51152069E-05 3 1000024 15 -12 # BR(Chi_7 -> Cha_1^* Fe_3 Fv_1^* ) 1.27024254E-03 3 1 -1 1000021 # BR(Chi_7 -> Fd_1 Fd_1^* Glu ) 1.26986777E-03 3 3 -3 1000021 # BR(Chi_7 -> Fd_2 Fd_2^* Glu ) 9.11781679E-04 3 5 -5 1000021 # BR(Chi_7 -> Fd_3 Fd_3^* Glu ) 3.14923712E-04 3 2 -2 1000021 # BR(Chi_7 -> Fu_1 Fu_1^* Glu ) 3.14751982E-04 3 4 -4 1000021 # BR(Chi_7 -> Fu_2 Fu_2^* Glu ) 1.51619785E-04 3 6 -6 1000021 # BR(Chi_7 -> Fu_3 Fu_3^* Glu ) DECAY 1000024 1.12503473E+00 # Cha_1 # BR NDA ID1 ID2 1.76553073E-03 2 1000022 24 # BR(Cha_1^* -> Chi_1 VWm^* ) 3.94992002E-01 2 -15 1000012 # BR(Cha_1^* -> Fe_3^* Sv_1 ) 3.89362755E-01 2 12 -1000011 # BR(Cha_1^* -> Fv_1 Se_1^* ) 2.13702971E-01 2 12 -1000013 # BR(Cha_1^* -> Fv_1 Se_2^* ) DECAY 1000037 2.19397916E+01 # Cha_2 # BR NDA ID1 ID2 1.69135328E-01 2 1000024 25 # BR(Cha_2^* -> Cha_1^* hh_1 ) 1.63788666E-01 2 1000024 23 # BR(Cha_2^* -> Cha_1^* VZ ) 5.70110279E-02 2 1000022 24 # BR(Cha_2^* -> Chi_1 VWm^* ) 1.65870527E-01 2 1000023 24 # BR(Cha_2^* -> Chi_2 VWm^* ) 2.79454421E-04 2 -3 1000002 # BR(Cha_2^* -> Fd_2^* Su_1 ) 2.02028503E-01 2 -5 1000002 # BR(Cha_2^* -> Fd_3^* Su_1 ) 2.55124848E-04 2 -11 1000016 # BR(Cha_2^* -> Fe_1^* Sv_3 ) 5.17197546E-04 2 -13 1000014 # BR(Cha_2^* -> Fe_2^* Sv_2 ) 1.06851994E-01 2 -15 1000012 # BR(Cha_2^* -> Fe_3^* Sv_1 ) 9.20395458E-02 2 12 -1000011 # BR(Cha_2^* -> Fv_1 Se_1^* ) 3.09224134E-02 2 12 -1000013 # BR(Cha_2^* -> Fv_1 Se_2^* ) 5.34927409E-04 2 14 -1000015 # BR(Cha_2^* -> Fv_2 Se_3^* ) 4.69181461E-04 2 14 -2000011 # BR(Cha_2^* -> Fv_2 Se_4^* ) 1.23366105E-04 2 14 -2000013 # BR(Cha_2^* -> Fv_2 Se_5^* ) 4.56802929E-04 2 16 -1000015 # BR(Cha_2^* -> Fv_3 Se_3^* ) 5.49422973E-04 2 16 -2000011 # BR(Cha_2^* -> Fv_3 Se_4^* ) 1.05348870E-04 2 16 -2000013 # BR(Cha_2^* -> Fv_3 Se_5^* ) # BR NDA ID1 ID2 ID3 1.46016931E-04 3 1000024 5 -5 # BR(Cha_2^* -> Cha_1^* Fd_3 Fd_3^* ) 3.82856792E-03 3 1000024 6 -6 # BR(Cha_2^* -> Cha_1^* Fu_3 Fu_3^* ) 1.64049310E-03 3 1000022 6 -5 # BR(Cha_2^* -> Chi_1 Fu_3 Fd_3^* ) 3.21504162E-03 3 1000023 6 -5 # BR(Cha_2^* -> Chi_2 Fu_3 Fd_3^* ) DECAY 1000021 4.38753018E+01 # Glu # BR NDA ID1 ID2 2.10123356E-02 2 1 -2000001 # BR(Glu -> Fd_1 Sd_4^* ) 2.10123356E-02 2 -1 2000001 # BR(Glu -> Fd_1^* Sd_4 ) 2.10298127E-02 2 3 -1000005 # BR(Glu -> Fd_2 Sd_3^* ) 2.10298127E-02 2 -3 1000005 # BR(Glu -> Fd_2^* Sd_3 ) 9.72932297E-02 2 5 -1000001 # BR(Glu -> Fd_3 Sd_1^* ) 9.72932297E-02 2 -5 1000001 # BR(Glu -> Fd_3^* Sd_1 ) 7.53178270E-02 2 5 -1000003 # BR(Glu -> Fd_3 Sd_2^* ) 7.53178270E-02 2 -5 1000003 # BR(Glu -> Fd_3^* Sd_2 ) 3.86152141E-03 2 2 -2000002 # BR(Glu -> Fu_1 Su_4^* ) 3.86152141E-03 2 -2 2000002 # BR(Glu -> Fu_1^* Su_4 ) 5.69348939E-05 2 2 -2000006 # BR(Glu -> Fu_1 Su_6^* ) 5.69348939E-05 2 -2 2000006 # BR(Glu -> Fu_1^* Su_6 ) 3.86203628E-03 2 4 -1000006 # BR(Glu -> Fu_2 Su_3^* ) 3.86203628E-03 2 -4 1000006 # BR(Glu -> Fu_2^* Su_3 ) 5.85174742E-05 2 4 -2000004 # BR(Glu -> Fu_2 Su_5^* ) 5.85174742E-05 2 -4 2000004 # BR(Glu -> Fu_2^* Su_5 ) 1.94500516E-01 2 6 -1000002 # BR(Glu -> Fu_3 Su_1^* ) 1.94500516E-01 2 -6 1000002 # BR(Glu -> Fu_3^* Su_1 ) 8.27083982E-02 2 6 -1000004 # BR(Glu -> Fu_3 Su_2^* ) 8.27083982E-02 2 -6 1000004 # BR(Glu -> Fu_3^* Su_2 ) # BR NDA ID1 ID2 ID3 5.51015785E-05 3 5 -6 1000037 # BR(Glu -> Fd_3 Fu_3^* Cha_2^* ) 5.51015785E-05 3 -5 6 -1000037 # BR(Glu -> Fd_3^* Fu_3 Cha_2 ) DECAY 2 0.00000000E+00 # Fu_1 # BR NDA ID1 ID2 DECAY 4 0.00000000E+00 # Fu_2 # BR NDA ID1 ID2 DECAY 6 1.61526879E+00 # Fu_3 # BR NDA ID1 ID2 1.67594486E-03 2 3 24 # BR(Fu_3 -> Fd_2 VWm^* ) 9.98288617E-01 2 5 24 # BR(Fu_3 -> Fd_3 VWm^* ) DECAY 12 0.00000000E+00 # Fv_1 # BR NDA ID1 ID2 DECAY 14 0.00000000E+00 # Fv_2 # BR NDA ID1 ID2 DECAY 16 4.56963770-107 # Fv_3 # BR NDA ID1 ID2 # BR NDA ID1 ID2 ID3 1.00000000E+00 3 12 12 14 # BR(Fv_3 -> Fv_1 Fv_1 Fv_2 ) DECAY 9000012 6.73812262E-01 # Fv_4 # BR NDA ID1 ID2 1.38328491E-04 2 -1000024 -1000013 # BR(Fv_4 -> Cha_1 Se_2^* ) 1.38328491E-04 2 1000024 1000013 # BR(Fv_4 -> Cha_1^* Se_2 ) 1.20503384E-02 2 -1000037 -1000011 # BR(Fv_4 -> Cha_2 Se_1^* ) 1.20503384E-02 2 1000037 1000011 # BR(Fv_4 -> Cha_2^* Se_1 ) 4.38570517E-02 2 -1000037 -1000013 # BR(Fv_4 -> Cha_2 Se_2^* ) 4.38570517E-02 2 1000037 1000013 # BR(Fv_4 -> Cha_2^* Se_2 ) 8.71245613E-05 2 1000023 1000012 # BR(Fv_4 -> Chi_2 Sv_1 ) 8.71245613E-05 2 -1000023 -1000012 # BR(Fv_4 -> Chi_2^* Sv_1^* ) 2.61899309E-01 2 1000025 2000016 # BR(Fv_4 -> Chi_3 Sv_6 ) 2.61899309E-01 2 -1000025 -2000016 # BR(Fv_4 -> Chi_3^* Sv_6^* ) 2.79342183E-02 2 1000035 1000012 # BR(Fv_4 -> Chi_4 Sv_1 ) 2.79342183E-02 2 -1000035 -1000012 # BR(Fv_4 -> Chi_4^* Sv_1^* ) 2.78093907E-02 2 9000001 1000012 # BR(Fv_4 -> Chi_5 Sv_1 ) 2.78093907E-02 2 -9000001 -1000012 # BR(Fv_4 -> Chi_5^* Sv_1^* ) 5.92631577E-02 2 15 24 # BR(Fv_4 -> Fe_3 VWm^* ) 5.92631577E-02 2 -15 -24 # BR(Fv_4 -> Fe_3^* VWm ) 6.36556258E-02 2 12 25 # BR(Fv_4 -> Fv_1 hh_1 ) 5.92147382E-02 2 12 23 # BR(Fv_4 -> Fv_1 VZ ) # BR NDA ID1 ID2 ID3 4.31130965E-03 3 12 -6 6 # BR(Fv_4 -> Fv_1 Fu_3^* Fu_3 ) 5.38802353E-05 3 -15 1000035 -1000024 # BR(Fv_4 -> Fe_3^* Chi_4 Cha_1 ) 5.38802353E-05 3 15 -1000035 1000024 # BR(Fv_4 -> Fe_3 Chi_4^* Cha_1^* ) 2.88262226E-03 3 15 -5 6 # BR(Fv_4 -> Fe_3 Fd_3^* Fu_3 ) 2.88262226E-03 3 -15 5 -6 # BR(Fv_4 -> Fe_3^* Fd_3 Fu_3^* ) DECAY 9000014 6.73911010E-01 # Fv_5 # BR NDA ID1 ID2 1.38308222E-04 2 -1000024 -1000013 # BR(Fv_5 -> Cha_1 Se_2^* ) 1.38308222E-04 2 1000024 1000013 # BR(Fv_5 -> Cha_1^* Se_2 ) 1.20485727E-02 2 -1000037 -1000011 # BR(Fv_5 -> Cha_2 Se_1^* ) 1.20485727E-02 2 1000037 1000011 # BR(Fv_5 -> Cha_2^* Se_1 ) 4.38506254E-02 2 -1000037 -1000013 # BR(Fv_5 -> Cha_2 Se_2^* ) 4.38506254E-02 2 1000037 1000013 # BR(Fv_5 -> Cha_2^* Se_2 ) 8.71117950E-05 2 1000023 1000012 # BR(Fv_5 -> Chi_2 Sv_1 ) 8.71117950E-05 2 -1000023 -1000012 # BR(Fv_5 -> Chi_2^* Sv_1^* ) 2.61860933E-01 2 1000025 2000016 # BR(Fv_5 -> Chi_3 Sv_6 ) 2.61860933E-01 2 -1000025 -2000016 # BR(Fv_5 -> Chi_3^* Sv_6^* ) 2.79301251E-02 2 1000035 1000012 # BR(Fv_5 -> Chi_4 Sv_1 ) 2.79301251E-02 2 -1000035 -1000012 # BR(Fv_5 -> Chi_4^* Sv_1^* ) 2.78053159E-02 2 9000001 1000012 # BR(Fv_5 -> Chi_5 Sv_1 ) 2.78053159E-02 2 -9000001 -1000012 # BR(Fv_5 -> Chi_5^* Sv_1^* ) 5.92544739E-02 2 15 24 # BR(Fv_5 -> Fe_3 VWm^* ) 5.92544739E-02 2 -15 -24 # BR(Fv_5 -> Fe_3^* VWm ) 6.36462984E-02 2 12 25 # BR(Fv_5 -> Fv_1 hh_1 ) 5.92060615E-02 2 12 23 # BR(Fv_5 -> Fv_1 VZ ) # BR NDA ID1 ID2 ID3 4.47912474E-03 3 12 -6 6 # BR(Fv_5 -> Fv_1 Fu_3^* Fu_3 ) 5.26842390E-05 3 -15 1000023 -1000037 # BR(Fv_5 -> Fe_3^* Chi_2 Cha_2 ) 5.26842390E-05 3 15 -1000023 1000037 # BR(Fv_5 -> Fe_3 Chi_2^* Cha_2^* ) 5.35225304E-05 3 -15 9000001 -1000024 # BR(Fv_5 -> Fe_3^* Chi_5 Cha_1 ) 5.35225304E-05 3 15 -9000001 1000024 # BR(Fv_5 -> Fe_3 Chi_5^* Cha_1^* ) 2.88219982E-03 3 15 -5 6 # BR(Fv_5 -> Fe_3 Fd_3^* Fu_3 ) 2.88219982E-03 3 -15 5 -6 # BR(Fv_5 -> Fe_3^* Fd_3 Fu_3^* ) DECAY 9000016 6.60911197E-01 # Fv_6 # BR NDA ID1 ID2 1.69945431E-04 2 -1000024 -1000015 # BR(Fv_6 -> Cha_1 Se_3^* ) 1.69945431E-04 2 1000024 1000015 # BR(Fv_6 -> Cha_1^* Se_3 ) 5.19623773E-02 2 -1000037 -1000015 # BR(Fv_6 -> Cha_2 Se_3^* ) 5.19623773E-02 2 1000037 1000015 # BR(Fv_6 -> Cha_2^* Se_3 ) 8.39934427E-05 2 1000023 1000014 # BR(Fv_6 -> Chi_2 Sv_2 ) 8.39934427E-05 2 -1000023 -1000014 # BR(Fv_6 -> Chi_2^* Sv_2^* ) 2.67043505E-01 2 1000025 2000014 # BR(Fv_6 -> Chi_3 Sv_5 ) 2.67043505E-01 2 -1000025 -2000014 # BR(Fv_6 -> Chi_3^* Sv_5^* ) 2.59920093E-02 2 1000035 1000014 # BR(Fv_6 -> Chi_4 Sv_2 ) 2.59920093E-02 2 -1000035 -1000014 # BR(Fv_6 -> Chi_4^* Sv_2^* ) 2.58709622E-02 2 9000001 1000014 # BR(Fv_6 -> Chi_5 Sv_2 ) 2.58709622E-02 2 -9000001 -1000014 # BR(Fv_6 -> Chi_5^* Sv_2^* ) 6.06938095E-02 2 13 24 # BR(Fv_6 -> Fe_2 VWm^* ) 6.06938095E-02 2 -13 -24 # BR(Fv_6 -> Fe_2^* VWm ) 3.50052444E-02 2 14 25 # BR(Fv_6 -> Fv_2 hh_1 ) 2.98928376E-02 2 16 25 # BR(Fv_6 -> Fv_3 hh_1 ) 3.27107452E-02 2 14 23 # BR(Fv_6 -> Fv_2 VZ ) 2.79334428E-02 2 16 23 # BR(Fv_6 -> Fv_3 VZ ) # BR NDA ID1 ID2 ID3 2.37075637E-03 3 14 -6 6 # BR(Fv_6 -> Fv_2 Fu_3^* Fu_3 ) 2.10380860E-03 3 16 -6 6 # BR(Fv_6 -> Fv_3 Fu_3^* Fu_3 ) 2.93889357E-03 3 13 -5 6 # BR(Fv_6 -> Fe_2 Fd_3^* Fu_3 ) 2.93889357E-03 3 -13 5 -6 # BR(Fv_6 -> Fe_2^* Fd_3 Fu_3^* ) DECAY 9000050 6.60920505E-01 # Fv_7 # BR NDA ID1 ID2 1.69943037E-04 2 -1000024 -1000015 # BR(Fv_7 -> Cha_1 Se_3^* ) 1.69943037E-04 2 1000024 1000015 # BR(Fv_7 -> Cha_1^* Se_3 ) 5.19616454E-02 2 -1000037 -1000015 # BR(Fv_7 -> Cha_2 Se_3^* ) 5.19616454E-02 2 1000037 1000015 # BR(Fv_7 -> Cha_2^* Se_3 ) 8.39922597E-05 2 1000023 1000014 # BR(Fv_7 -> Chi_2 Sv_2 ) 8.39922597E-05 2 -1000023 -1000014 # BR(Fv_7 -> Chi_2^* Sv_2^* ) 2.67039744E-01 2 1000025 2000014 # BR(Fv_7 -> Chi_3 Sv_5 ) 2.67039744E-01 2 -1000025 -2000014 # BR(Fv_7 -> Chi_3^* Sv_5^* ) 2.59916432E-02 2 1000035 1000014 # BR(Fv_7 -> Chi_4 Sv_2 ) 2.59916432E-02 2 -1000035 -1000014 # BR(Fv_7 -> Chi_4^* Sv_2^* ) 2.58705978E-02 2 9000001 1000014 # BR(Fv_7 -> Chi_5 Sv_2 ) 2.58705978E-02 2 -9000001 -1000014 # BR(Fv_7 -> Chi_5^* Sv_2^* ) 6.06929547E-02 2 13 24 # BR(Fv_7 -> Fe_2 VWm^* ) 6.06929547E-02 2 -13 -24 # BR(Fv_7 -> Fe_2^* VWm ) 3.50047514E-02 2 14 25 # BR(Fv_7 -> Fv_2 hh_1 ) 2.98924166E-02 2 16 25 # BR(Fv_7 -> Fv_3 hh_1 ) 3.27102845E-02 2 14 23 # BR(Fv_7 -> Fv_2 VZ ) 2.79330494E-02 2 16 23 # BR(Fv_7 -> Fv_3 VZ ) # BR NDA ID1 ID2 ID3 2.46357666E-03 3 14 -6 6 # BR(Fv_7 -> Fv_2 Fu_3^* Fu_3 ) 2.02448628E-03 3 16 -6 6 # BR(Fv_7 -> Fv_3 Fu_3^* Fu_3 ) 2.93885217E-03 3 13 -5 6 # BR(Fv_7 -> Fe_2 Fd_3^* Fu_3 ) 2.93885217E-03 3 -13 5 -6 # BR(Fv_7 -> Fe_2^* Fd_3 Fu_3^* ) DECAY 9000051 6.60873337E-01 # Fv_8 # BR NDA ID1 ID2 1.70025873E-04 2 -1000024 -2000011 # BR(Fv_8 -> Cha_1 Se_4^* ) 1.70025873E-04 2 1000024 2000011 # BR(Fv_8 -> Cha_1^* Se_4 ) 5.19792094E-02 2 -1000037 -2000011 # BR(Fv_8 -> Cha_2 Se_4^* ) 5.19792094E-02 2 1000037 2000011 # BR(Fv_8 -> Cha_2^* Se_4 ) 8.39790181E-05 2 1000023 1000016 # BR(Fv_8 -> Chi_2 Sv_3 ) 8.39790181E-05 2 -1000023 -1000016 # BR(Fv_8 -> Chi_2^* Sv_3^* ) 2.67061735E-01 2 1000025 2000012 # BR(Fv_8 -> Chi_3 Sv_4 ) 2.67061735E-01 2 -1000025 -2000012 # BR(Fv_8 -> Chi_3^* Sv_4^* ) 2.59836686E-02 2 1000035 1000016 # BR(Fv_8 -> Chi_4 Sv_3 ) 2.59836686E-02 2 -1000035 -1000016 # BR(Fv_8 -> Chi_4^* Sv_3^* ) 2.58626386E-02 2 9000001 1000016 # BR(Fv_8 -> Chi_5 Sv_3 ) 2.58626386E-02 2 -9000001 -1000016 # BR(Fv_8 -> Chi_5^* Sv_3^* ) 6.06980477E-02 2 11 24 # BR(Fv_8 -> Fe_1 VWm^* ) 6.06980477E-02 2 -11 -24 # BR(Fv_8 -> Fe_1^* VWm ) 2.98945789E-02 2 14 25 # BR(Fv_8 -> Fv_2 hh_1 ) 3.50072836E-02 2 16 25 # BR(Fv_8 -> Fv_3 hh_1 ) 2.79353933E-02 2 14 23 # BR(Fv_8 -> Fv_2 VZ ) 3.27130292E-02 2 16 23 # BR(Fv_8 -> Fv_3 VZ ) # BR NDA ID1 ID2 ID3 2.02463387E-03 3 14 -6 6 # BR(Fv_8 -> Fv_2 Fu_3^* Fu_3 ) 2.46375676E-03 3 16 -6 6 # BR(Fv_8 -> Fv_3 Fu_3^* Fu_3 ) 2.93906618E-03 3 11 -5 6 # BR(Fv_8 -> Fe_1 Fd_3^* Fu_3 ) 2.93906618E-03 3 -11 5 -6 # BR(Fv_8 -> Fe_1^* Fd_3 Fu_3^* ) DECAY 9000052 6.60864717E-01 # Fv_9 # BR NDA ID1 ID2 1.70028090E-04 2 -1000024 -2000011 # BR(Fv_9 -> Cha_1 Se_4^* ) 1.70028090E-04 2 1000024 2000011 # BR(Fv_9 -> Cha_1^* Se_4 ) 5.19798873E-02 2 -1000037 -2000011 # BR(Fv_9 -> Cha_2 Se_4^* ) 5.19798873E-02 2 1000037 2000011 # BR(Fv_9 -> Cha_2^* Se_4 ) 8.39801135E-05 2 1000023 1000016 # BR(Fv_9 -> Chi_2 Sv_3 ) 8.39801135E-05 2 -1000023 -1000016 # BR(Fv_9 -> Chi_2^* Sv_3^* ) 2.67065218E-01 2 1000025 2000012 # BR(Fv_9 -> Chi_3 Sv_4 ) 2.67065218E-01 2 -1000025 -2000012 # BR(Fv_9 -> Chi_3^* Sv_4^* ) 2.59840075E-02 2 1000035 1000016 # BR(Fv_9 -> Chi_4 Sv_3 ) 2.59840075E-02 2 -1000035 -1000016 # BR(Fv_9 -> Chi_4^* Sv_3^* ) 2.58629760E-02 2 9000001 1000016 # BR(Fv_9 -> Chi_5 Sv_3 ) 2.58629760E-02 2 -9000001 -1000016 # BR(Fv_9 -> Chi_5^* Sv_3^* ) 6.06988394E-02 2 11 24 # BR(Fv_9 -> Fe_1 VWm^* ) 6.06988394E-02 2 -11 -24 # BR(Fv_9 -> Fe_1^* VWm ) 2.98949689E-02 2 14 25 # BR(Fv_9 -> Fv_2 hh_1 ) 3.50077401E-02 2 16 25 # BR(Fv_9 -> Fv_3 hh_1 ) 2.79357577E-02 2 14 23 # BR(Fv_9 -> Fv_2 VZ ) 3.27134559E-02 2 16 23 # BR(Fv_9 -> Fv_3 VZ ) # BR NDA ID1 ID2 ID3 2.10396021E-03 3 14 -6 6 # BR(Fv_9 -> Fv_2 Fu_3^* Fu_3 ) 2.37092673E-03 3 16 -6 6 # BR(Fv_9 -> Fv_3 Fu_3^* Fu_3 ) 2.93910451E-03 3 11 -5 6 # BR(Fv_9 -> Fe_1 Fd_3^* Fu_3 ) 2.93910451E-03 3 -11 5 -6 # BR(Fv_9 -> Fe_1^* Fd_3 Fu_3^* ) DECAY 23 2.50721265E+00 # VZ # BR NDA ID1 ID2 1.51877000E-01 2 -1 1 # BR(VZ -> Fd_1^* Fd_1 ) 1.51876327E-01 2 -3 3 # BR(VZ -> Fd_2^* Fd_2 ) 1.50572450E-01 2 -5 5 # BR(VZ -> Fd_3^* Fd_3 ) 3.46097647E-02 2 -11 11 # BR(VZ -> Fe_1^* Fe_1 ) 3.46094866E-02 2 -13 13 # BR(VZ -> Fe_2^* Fe_2 ) 3.45311446E-02 2 -15 15 # BR(VZ -> Fe_3^* Fe_3 ) 1.17414549E-01 2 -2 2 # BR(VZ -> Fu_1^* Fu_1 ) 1.17294010E-01 2 -4 4 # BR(VZ -> Fu_2^* Fu_2 ) 6.90717574E-02 2 12 12 # BR(VZ -> Fv_1 Fv_1 ) 6.90717553E-02 2 14 14 # BR(VZ -> Fv_2 Fv_2 ) 6.90717553E-02 2 16 16 # BR(VZ -> Fv_3 Fv_3 ) DECAY 99 9.16779090E+01 # VZR # BR NDA ID1 ID2 4.04300156E-03 2 225 36 # BR(VZR -> hh_3 Ah_3 ) 1.02664616E-04 2 1000024 -1000037 # BR(VZR -> Cha_1^* Cha_2 ) 1.02664616E-04 2 1000037 -1000024 # BR(VZR -> Cha_2^* Cha_1 ) 2.87269332E-02 2 1000037 -1000037 # BR(VZR -> Cha_2^* Cha_2 ) 2.53130792E-04 2 1000025 1000025 # BR(VZR -> Chi_3 Chi_3 ) 2.88406328E-02 2 1000035 9000001 # BR(VZR -> Chi_4 Chi_5 ) 1.26272222E-01 2 -1 1 # BR(VZR -> Fd_1^* Fd_1 ) 1.26272222E-01 2 -3 3 # BR(VZR -> Fd_2^* Fd_2 ) 1.26272152E-01 2 -5 5 # BR(VZR -> Fd_3^* Fd_3 ) 4.83023769E-02 2 -11 11 # BR(VZR -> Fe_1^* Fe_1 ) 4.83023769E-02 2 -13 13 # BR(VZR -> Fe_2^* Fe_2 ) 4.83023726E-02 2 -15 15 # BR(VZR -> Fe_3^* Fe_3 ) 2.37141192E-02 2 -2 2 # BR(VZR -> Fu_1^* Fu_1 ) 2.37141128E-02 2 -4 4 # BR(VZR -> Fu_2^* Fu_2 ) 2.35933731E-02 2 -6 6 # BR(VZR -> Fu_3^* Fu_3 ) 4.19443525E-02 2 12 12 # BR(VZR -> Fv_1 Fv_1 ) 4.19443513E-02 2 14 14 # BR(VZR -> Fv_2 Fv_2 ) 4.19443513E-02 2 16 16 # BR(VZR -> Fv_3 Fv_3 ) 7.46746753E-03 2 25 23 # BR(VZR -> hh_1 VZ ) 4.04419913E-03 2 37 -37 # BR(VZR -> Hpm_2^* Hpm_2 ) 1.57994126E-02 2 -1000001 1000001 # BR(VZR -> Sd_1^* Sd_1 ) 2.20268332E-03 2 -1000001 1000003 # BR(VZR -> Sd_1^* Sd_2 ) 2.20268332E-03 2 -1000003 1000001 # BR(VZR -> Sd_2^* Sd_1 ) 7.22536956E-03 2 -1000003 1000003 # BR(VZR -> Sd_2^* Sd_2 ) 1.60281041E-02 2 -1000005 1000005 # BR(VZR -> Sd_3^* Sd_3 ) 1.60251923E-02 2 -2000001 2000001 # BR(VZR -> Sd_4^* Sd_4 ) 1.19383937E-03 2 -2000003 2000003 # BR(VZR -> Sd_5^* Sd_5 ) 1.19315069E-03 2 -2000005 2000005 # BR(VZR -> Sd_6^* Sd_6 ) 5.18894770E-03 2 -1000011 1000011 # BR(VZR -> Se_1^* Se_1 ) 1.14443518E-03 2 -1000011 1000013 # BR(VZR -> Se_1^* Se_2 ) 1.14443518E-03 2 -1000013 1000011 # BR(VZR -> Se_2^* Se_1 ) 1.46111856E-02 2 -1000013 1000013 # BR(VZR -> Se_2^* Se_2 ) 1.72871464E-02 2 -1000015 1000015 # BR(VZR -> Se_3^* Se_3 ) 1.72947666E-02 2 -2000011 2000011 # BR(VZR -> Se_4^* Se_4 ) 2.46350552E-03 2 -2000013 2000013 # BR(VZR -> Se_5^* Se_5 ) 2.45586721E-03 2 -2000015 2000015 # BR(VZR -> Se_6^* Se_6 ) 2.13594401E-03 2 -1000002 1000002 # BR(VZR -> Su_1^* Su_1 ) 8.22203462E-04 2 -1000002 1000004 # BR(VZR -> Su_1^* Su_2 ) 8.22203462E-04 2 -1000004 1000002 # BR(VZR -> Su_2^* Su_1 ) 2.11814431E-03 2 -1000004 1000004 # BR(VZR -> Su_2^* Su_2 ) 1.04139540E-03 2 -1000006 1000006 # BR(VZR -> Su_3^* Su_3 ) 1.04152411E-03 2 -2000002 2000002 # BR(VZR -> Su_4^* Su_4 ) 1.19892848E-03 2 -2000004 2000004 # BR(VZR -> Su_5^* Su_5 ) 1.19846094E-03 2 -2000006 2000006 # BR(VZR -> Su_6^* Su_6 ) 1.89992946E-02 2 -1000012 1000012 # BR(VZR -> Sv_1^* Sv_1 ) 1.72130590E-02 2 -1000014 1000014 # BR(VZR -> Sv_2^* Sv_2 ) 1.72060612E-02 2 -1000016 1000016 # BR(VZR -> Sv_3^* Sv_3 ) 3.75642723E-03 2 -2000012 2000012 # BR(VZR -> Sv_4^* Sv_4 ) 3.75642513E-03 2 -2000014 2000014 # BR(VZR -> Sv_5^* Sv_5 ) 3.75580745E-03 2 -2000016 2000016 # BR(VZR -> Sv_6^* Sv_6 ) 7.11390276E-03 2 -24 24 # BR(VZR -> VWm VWm^* ) DECAY 21 0.00000000E+00 # VG DECAY 22 0.00000000E+00 # VP DECAY 24 2.14100000E+00 # VWm DECAY 11 0.00000000E+00 # Fe_1 DECAY 13 0.00000000E+00 # Fe_2 DECAY 15 0.00000000E+00 # Fe_3 DECAY 1 0.00000000E+00 # Fd_1 DECAY 3 0.00000000E+00 # Fd_2 DECAY 5 0.00000000E+00 # Fd_3 #********************************************************************* # MadGraph5_aMC@NLO * # * # run_card.dat MadEvent * # * # This file is used to set the parameters of the run. * # * # Some notation/conventions: * # * # Lines starting with a '# ' are info or comments * # * # mind the format: value = variable ! comment * # * # To display more options, you can type the command: * # update full_run_card * #********************************************************************* # #********************************************************************* # Tag name for the run (one word) * #********************************************************************* tag_1 = run_tag ! name of the run #********************************************************************* # Number of events and rnd seed * # Warning: Do not generate more than 1M events in a single run * #********************************************************************* 10000 = nevents ! Number of unweighted events requested 0 = iseed ! rnd seed (0=assigned automatically=default)) #********************************************************************* # Collider type and energy * # lpp: 0=No PDF, 1=proton, -1=antiproton, 2=photon from proton, * # 3=photon from electron, 4=photon from muon * #********************************************************************* 1 = lpp1 ! beam 1 type 1 = lpp2 ! beam 2 type 6500.0 = ebeam1 ! beam 1 total energy in GeV 6500.0 = ebeam2 ! beam 2 total energy in GeV # To see polarised beam options: type "update beam_pol" #********************************************************************* # PDF CHOICE: this automatically fixes also alpha_s and its evol. * #********************************************************************* nn23lo1 = pdlabel ! PDF set 230000 = lhaid ! if pdlabel=lhapdf, this is the lhapdf number # To see heavy ion options: type "update ion_pdf" #********************************************************************* # Renormalization and factorization scales * #********************************************************************* False = fixed_ren_scale ! if .true. use fixed ren scale False = fixed_fac_scale ! if .true. use fixed fac scale 91.188 = scale ! fixed ren scale 91.188 = dsqrt_q2fact1 ! fixed fact scale for pdf1 91.188 = dsqrt_q2fact2 ! fixed fact scale for pdf2 -1 = dynamical_scale_choice ! Choose one of the preselected dynamical choices 1.0 = scalefact ! scale factor for event-by-event scales #********************************************************************* # Type and output format #********************************************************************* False = gridpack !True = setting up the grid pack -1.0 = time_of_flight ! threshold (in mm) below which the invariant livetime is not written (-1 means not written) average = event_norm ! average/sum. Normalization of the weight in the LHEF # To see MLM/CKKW merging options: type "update MLM" or "update CKKW" #********************************************************************* # #********************************************************************* # Phase-Space Optimization strategy (basic options) #********************************************************************* 0 = nhel ! using helicities importance sampling or not. ! 0: sum over helicity, 1: importance sampling 2 = sde_strategy ! default integration strategy (hep-ph/2021.xxxxx) ! 1 is old strategy (using amp square) ! 2 is new strategy (using only the denominator) # To see advanced option for Phase-Space optimization: type "update psoptim" #********************************************************************* # Generation bias, check the wiki page below for more information: * # 'cp3.irmp.ucl.ac.be/projects/madgraph/wiki/LOEventGenerationBias' * #********************************************************************* None = bias_module ! Bias type of bias, [None, ptj_bias, -custom_folder-] {} = bias_parameters ! Specifies the parameters of the module. # #******************************* # Parton level cuts definition * #******************************* # # #********************************************************************* # BW cutoff (M+/-bwcutoff*Gamma) ! Define on/off-shell for "$" and decay #********************************************************************* 15.0 = bwcutoff ! (M+/-bwcutoff*Gamma) #********************************************************************* # Apply pt/E/eta/dr/mij/kt_durham cuts on decay products or not # (note that etmiss/ptll/ptheavy/ht/sorted cuts always apply) #********************************************************************* False = cut_decays ! Cut decay products #********************************************************************* # Standard Cuts * #********************************************************************* # Minimum and maximum pt's (for max, -1 means no cut) * #********************************************************************* 10.0 = ptl ! minimum pt for the charged leptons 0.0 = misset ! minimum missing Et (sum of neutrino's momenta) -1.0 = ptlmax ! maximum pt for the charged leptons -1.0 = missetmax ! maximum missing Et (sum of neutrino's momenta) {} = pt_min_pdg ! pt cut for other particles (use pdg code). Applied on particle and anti-particle {} = pt_max_pdg ! pt cut for other particles (syntax e.g. {6: 100, 25: 50}) # # For display option for energy cut in the partonic center of mass frame type 'update ecut' # #********************************************************************* # Maximum and minimum absolute rapidity (for max, -1 means no cut) * #********************************************************************* 2.5 = etal ! max rap for the charged leptons 0.0 = etalmin ! main rap for the charged leptons {} = eta_min_pdg ! rap cut for other particles (use pdg code). Applied on particle and anti-particle {} = eta_max_pdg ! rap cut for other particles (syntax e.g. {6: 2.5, 23: 5}) #********************************************************************* # Minimum and maximum DeltaR distance * #********************************************************************* #********************************************************************* # Minimum and maximum invariant mass for pairs * #********************************************************************* {} = mxx_min_pdg ! min invariant mass of a pair of particles X/X~ (e.g. {6:250}) {'default': False} = mxx_only_part_antipart ! if True the invariant mass is applied only ! to pairs of particle/antiparticle and not to pairs of the same pdg codes. #********************************************************************* # Minimum and maximum invariant mass for all letpons * #********************************************************************* 0.0 = mmnl ! min invariant mass for all letpons (l+- and vl) -1.0 = mmnlmax ! max invariant mass for all letpons (l+- and vl) #********************************************************************* # Minimum and maximum pt for 4-momenta sum of leptons / neutrino * # for pair of lepton includes only same flavor, opposite charge #********************************************************************* #********************************************************************* # Inclusive cuts * #********************************************************************* 0.0 = ptheavy ! minimum pt for at least one heavy final state #********************************************************************* # maximal pdg code for quark to be considered as a light jet * # (otherwise b cuts are applied) * #********************************************************************* 4 = maxjetflavor ! Maximum jet pdg code #********************************************************************* # #********************************************************************* # Store info for systematics studies * # WARNING: Do not use for interference type of computation * #********************************************************************* True = use_syst ! Enable systematics studies # systematics = systematics_program ! none, systematics [python], SysCalc [depreceted, C++] ['--mur=0.5,1,2', '--muf=0.5,1,2', '--pdf=errorset'] = systematics_arguments ! see: https://cp3.irmp.ucl.ac.be/projects/madgraph/wiki/Systematics#Systematicspythonmodule # Syscalc is deprecated but to see the associate options type'update syscalc'