# SUSY Les Houches Accord 2 - MSSM Spectrum + Decays + Flavor Observables # SPheno module generated by SARAH # ---------------------------------------------------------------------- # SPheno v3.3.8 # 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: 4.9.0 # 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 the FlavorKit # W. Porod, F. Staub, A. Vicente; Eur.Phys.J. C74 (2014) 8, 2992; arXiv:1405.1434 # Two-loop masss corrections to Higgs fields based on # M. D. Goodsell, K. Nickel, F. Staub; arXiv:1411.0675 # M. D. Goodsell, K. Nickel, F. Staub; arXiv:1503.03098 # # in case of problems send email to florian.staub@cern.ch and goodsell@lpthe.jussieu.fr # ---------------------------------------------------------------------- # Created: 13.07.2016, 16:10 Block SPINFO # Program information 1 SPhenoSARAH # spectrum calculator 2 v3.3.8 # version number of SPheno 9 4.9.0 # 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 1.50000000E+03 # m0 2 1.50000000E+03 # m12 3 1.00000000E+01 # TanBeta 4 1.00000000E+00 # SignumMu 5 -2.00000000E+03 # Azero Block gaugeGUT Q= 1.27157351E+16 # (GUT scale) 1 6.99798612E-01 # g1(Q)^DRbar 2 6.99789515E-01 # g2(Q)^DRbar 3 6.97368011E-01 # g3(Q)^DRbar Block SMINPUTS # SM parameters 1 1.27932466E+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= 2.45474144E+03 # (SUSY Scale) 1 3.64193719E-01 # g1 2 6.35948459E-01 # g2 3 1.01363096E+00 # g3 Block HMIX Q= 2.45474144E+03 # (SUSY Scale) 1 2.06020304E+03 # Mu 101 7.71767791E+05 # Bmu 102 2.53548165E+01 # vd 103 2.42072876E+02 # vu 3 2.43397091E+02 # v 10 1.46643727E+00 # betaH 11 3.03694259E+00 # alphaH Block MSOFT Q= 2.45474144E+03 # (SUSY Scale) 21 2.90511496E+06 # mHd2 22 -4.07692891E+06 # mHu2 1 6.63379890E+02 # M1 2 1.19612328E+03 # M2 3 3.11435874E+03 # M3 Block PHASES Q= 2.45474144E+03 # (SUSY Scale) 1 1.00000000E+00 # pG Block TREEHMIX Q= 2.45474144E+03 # (SUSY Scale) 1 2.03725264E+03 # Mu 101 7.38589953E+05 # Bmu Block LOOPHMIX Q= 2.45474144E+03 # (SUSY Scale) 1 2.05913754E+03 # Mu 101 7.69841686E+05 # Bmu Block Yd Q= 2.45474144E+03 # (SUSY Scale) 1 1 1.24352653E-04 # Real(Yd(1,1),dp) 1 2 -1.89851707E-10 # Real(Yd(1,2),dp) 1 3 4.72075576E-09 # Real(Yd(1,3),dp) 2 1 -3.60716431E-09 # Real(Yd(2,1),dp) 2 2 2.36272423E-03 # Real(Yd(2,2),dp) 2 3 -6.16818403E-07 # Real(Yd(2,3),dp) 3 1 4.61596298E-06 # Real(Yd(3,1),dp) 3 2 -3.17436462E-05 # Real(Yd(3,2),dp) 3 3 1.24199066E-01 # Real(Yd(3,3),dp) Block Ye Q= 2.45474144E+03 # (SUSY Scale) 1 1 2.85258913E-05 # 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 5.89824994E-03 # 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 9.91835220E-02 # Real(Ye(3,3),dp) Block Yu Q= 2.45474144E+03 # (SUSY Scale) 1 1 6.67592378E-06 # Real(Yu(1,1),dp) 1 2 1.54411766E-06 # Real(Yu(1,2),dp) 1 3 2.35418026E-08 # Real(Yu(1,3),dp) 2 1 -7.84239528E-04 # Real(Yu(2,1),dp) 2 2 3.38840129E-03 # Real(Yu(2,2),dp) 2 3 1.43494799E-04 # Real(Yu(2,3),dp) 3 1 4.97290712E-03 # Real(Yu(3,1),dp) 3 2 -3.41983661E-02 # Real(Yu(3,2),dp) 3 3 8.36419140E-01 # Real(Yu(3,3),dp) Block Td Q= 2.45474144E+03 # (SUSY Scale) 1 1 -7.06979244E-01 # Real(Td(1,1),dp) 1 2 -1.20914330E-05 # Real(Td(1,2),dp) 1 3 2.90495394E-04 # Real(Td(1,3),dp) 2 1 -2.29737252E-04 # Real(Td(2,1),dp) 2 2 -1.34310417E+01 # Real(Td(2,2),dp) 2 3 -3.79570877E-02 # Real(Td(2,3),dp) 3 1 2.88621506E-01 # Real(Td(3,1),dp) 3 2 -1.98485438E+00 # Real(Td(3,2),dp) 3 3 -6.49538474E+02 # Real(Td(3,3),dp) Block Te Q= 2.45474144E+03 # (SUSY Scale) 1 1 -8.07542320E-02 # 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 -1.66969872E+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 -2.78745781E+02 # Real(Te(3,3),dp) Block Tu Q= 2.45474144E+03 # (SUSY Scale) 1 1 -2.94272205E-02 # Real(Tu(1,1),dp) 1 2 -6.80641244E-03 # Real(Tu(1,2),dp) 1 3 -1.03418112E-04 # Real(Tu(1,3),dp) 2 1 3.45688287E+00 # Real(Tu(2,1),dp) 2 2 -1.49358723E+01 # Real(Tu(2,2),dp) 2 3 -6.30770452E-01 # Real(Tu(2,3),dp) 3 1 -1.54795098E+01 # Real(Tu(3,1),dp) 3 2 1.06451483E+02 # Real(Tu(3,2),dp) 3 3 -2.59550663E+03 # Real(Tu(3,3),dp) Block MSQ2 Q= 2.45474144E+03 # (SUSY Scale) 1 1 9.92270167E+06 # Real(mq2(1,1),dp) 1 2 5.49602278E+02 # Real(mq2(1,2),dp) 1 3 -1.31579688E+04 # Real(mq2(1,3),dp) 2 1 5.49602278E+02 # Real(mq2(2,1),dp) 2 2 9.91900275E+06 # Real(mq2(2,2),dp) 2 3 9.04876185E+04 # Real(mq2(2,3),dp) 3 1 -1.31579688E+04 # Real(mq2(3,1),dp) 3 2 9.04876185E+04 # Real(mq2(3,2),dp) 3 3 7.63810330E+06 # Real(mq2(3,3),dp) Block MSL2 Q= 2.45474144E+03 # (SUSY Scale) 1 1 3.17081508E+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 3.17067742E+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 3.13203673E+06 # Real(ml2(3,3),dp) Block MSD2 Q= 2.45474144E+03 # (SUSY Scale) 1 1 9.20189785E+06 # Real(md2(1,1),dp) 1 2 -3.52897624E-05 # Real(md2(1,2),dp) 1 3 4.41144693E-02 # Real(md2(1,3),dp) 2 1 -3.52897624E-05 # Real(md2(2,1),dp) 2 2 9.20184210E+06 # Real(md2(2,2),dp) 2 3 -5.76415564E+00 # Real(md2(2,3),dp) 3 1 4.41144693E-02 # Real(md2(3,1),dp) 3 2 -5.76415564E+00 # Real(md2(3,2),dp) 3 3 9.05729752E+06 # Real(md2(3,3),dp) Block MSU2 Q= 2.45474144E+03 # (SUSY Scale) 1 1 9.28082691E+06 # Real(mu2(1,1),dp) 1 2 5.20628159E-07 # Real(mu2(1,2),dp) 1 3 -2.70695124E-04 # Real(mu2(1,3),dp) 2 1 5.20628159E-07 # Real(mu2(2,1),dp) 2 2 9.28072817E+06 # Real(mu2(2,2),dp) 2 3 5.80959902E-02 # Real(mu2(2,3),dp) 3 1 -2.70695124E-04 # Real(mu2(3,1),dp) 3 2 5.80959902E-02 # Real(mu2(3,2),dp) 3 3 4.74959891E+06 # Real(mu2(3,3),dp) Block MSE2 Q= 2.45474144E+03 # (SUSY Scale) 1 1 2.54037974E+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 2.54010190E+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 2.46210160E+06 # Real(me2(3,3),dp) Block MASS # Mass spectrum # PDG code mass particle 1000001 2.83941648E+03 # Sd_1 1000003 3.10229888E+03 # Sd_2 1000005 3.12634290E+03 # Sd_3 2000001 3.12635235E+03 # Sd_4 2000003 3.24954412E+03 # Sd_5 2000005 3.24957526E+03 # Sd_6 1000002 2.24080393E+03 # Su_1 1000004 2.85715183E+03 # Su_2 1000006 3.13875332E+03 # Su_3 2000002 3.13877200E+03 # Su_4 2000004 3.24858310E+03 # Su_5 2000006 3.24861344E+03 # Su_6 1000011 1.57282771E+03 # Se_1 1000013 1.59882874E+03 # Se_2 1000015 1.59892080E+03 # Se_3 2000011 1.77967611E+03 # Se_4 2000013 1.79023256E+03 # Se_5 2000015 1.79026989E+03 # Se_6 1000012 1.77689276E+03 # Sv_1 1000014 1.78813136E+03 # Sv_2 1000016 1.78817127E+03 # Sv_3 25 1.24789057E+02 # hh_1 35 2.70407551E+03 # hh_2 36 2.70405153E+03 # Ah_2 37 2.70475229E+03 # Hpm_2 23 9.11887000E+01 # VZ 24 8.03161493E+01 # VWm 1 5.00000000E-03 # Fd_1 3 9.50000000E-02 # Fd_2 5 4.18000000E+00 # Fd_3 2 2.50000000E-03 # Fu_1 4 1.27000000E+00 # Fu_2 6 1.73500000E+02 # Fu_3 11 5.10998930E-04 # Fe_1 13 1.05658372E-01 # Fe_2 15 1.77669000E+00 # Fe_3 1000021 3.26165015E+03 # Glu 1000022 6.57648553E+02 # Chi_1 1000023 1.23654629E+03 # Chi_2 1000025 2.06605902E+03 # Chi_3 1000035 2.06994921E+03 # Chi_4 1000024 1.23665502E+03 # Cha_1 1000037 2.07039610E+03 # Cha_2 Block LSP # LSP and NLSP 1 1000022 # LSP 2 1000023 # NLSP Block DSQMIX Q= 2.45474144E+03 # () 1 1 -5.75594788E-03 # Real(ZD(1,1),dp) 1 2 3.95837437E-02 # Real(ZD(1,2),dp) 1 3 -9.98580007E-01 # Real(ZD(1,3),dp) 1 4 -1.85594939E-07 # Real(ZD(1,4),dp) 1 5 2.42512565E-05 # Real(ZD(1,5),dp) 1 6 -3.51847246E-02 # Real(ZD(1,6),dp) 2 1 5.69233594E-04 # Real(ZD(2,1),dp) 2 2 -3.91469084E-03 # Real(ZD(2,2),dp) 2 3 3.50543658E-02 # Real(ZD(2,3),dp) 2 4 4.26870600E-07 # Real(ZD(2,4),dp) 2 5 -5.57983124E-05 # Real(ZD(2,5),dp) 2 6 -9.99377576E-01 # Real(ZD(2,6),dp) 3 1 -4.54264898E-07 # Real(ZD(3,1),dp) 3 2 -1.46023285E-03 # Real(ZD(3,2),dp) 3 3 -8.42314661E-05 # Real(ZD(3,3),dp) 3 4 -8.97423091E-07 # Real(ZD(3,4),dp) 3 5 -9.99998929E-01 # Real(ZD(3,5),dp) 3 6 5.85981461E-05 # Real(ZD(3,6),dp) 4 1 7.70216562E-05 # Real(ZD(4,1),dp) 4 2 2.25945597E-08 # Real(ZD(4,2),dp) 4 3 -6.44745690E-07 # Real(ZD(4,3),dp) 4 4 9.99999997E-01 # Real(ZD(4,4),dp) 4 5 -8.97411450E-07 # Real(ZD(4,5),dp) 4 6 4.48353451E-07 # Real(ZD(4,6),dp) 5 1 1.46102028E-01 # Real(ZD(5,1),dp) 5 2 -9.88451550E-01 # Real(ZD(5,2),dp) 5 3 -4.01141451E-02 # Real(ZD(5,3),dp) 5 4 -1.12563940E-05 # Real(ZD(5,4),dp) 5 5 1.44683279E-03 # Real(ZD(5,5),dp) 5 6 2.54797768E-03 # Real(ZD(5,6),dp) 6 1 -9.89252615E-01 # Real(ZD(6,1),dp) 6 2 -1.46216289E-01 # Real(ZD(6,2),dp) 6 3 -9.40400420E-05 # Real(ZD(6,3),dp) 6 4 7.61973074E-05 # Real(ZD(6,4),dp) 6 5 2.13967642E-04 # Real(ZD(6,5),dp) 6 6 5.97103926E-06 # Real(ZD(6,6),dp) Block SNUMIX Q= 2.45474144E+03 # () 1 1 0.00000000E+00 # Real(ZV(1,1),dp) 1 2 0.00000000E+00 # Real(ZV(1,2),dp) 1 3 1.00000000E+00 # Real(ZV(1,3),dp) 2 1 0.00000000E+00 # Real(ZV(2,1),dp) 2 2 1.00000000E+00 # Real(ZV(2,2),dp) 2 3 0.00000000E+00 # Real(ZV(2,3),dp) 3 1 1.00000000E+00 # Real(ZV(3,1),dp) 3 2 0.00000000E+00 # Real(ZV(3,2),dp) 3 3 0.00000000E+00 # Real(ZV(3,3),dp) Block USQMIX Q= 2.45474144E+03 # () 1 1 9.38416230E-04 # Real(ZU(1,1),dp) 1 2 -6.45345696E-03 # Real(ZU(1,2),dp) 1 3 1.59715456E-01 # Real(ZU(1,3),dp) 1 4 7.56553646E-11 # Real(ZU(1,4),dp) 1 5 8.93256411E-08 # Real(ZU(1,5),dp) 1 6 9.87141553E-01 # Real(ZU(1,6),dp) 2 1 -5.68135010E-03 # Real(ZU(2,1),dp) 2 2 3.90707471E-02 # Real(ZU(2,2),dp) 2 3 -9.86351692E-01 # Real(ZU(2,3),dp) 2 4 -3.29207419E-10 # Real(ZU(2,4),dp) 2 5 -2.07286010E-06 # Real(ZU(2,5),dp) 2 6 1.59848487E-01 # Real(ZU(2,6),dp) 3 1 9.72265620E-04 # Real(ZU(3,1),dp) 3 2 -4.20138214E-03 # Real(ZU(3,2),dp) 3 3 -1.70048792E-04 # Real(ZU(3,3),dp) 3 4 -3.43730458E-11 # Real(ZU(3,4),dp) 3 5 -9.99990687E-01 # Real(ZU(3,5),dp) 3 6 -7.87205716E-07 # Real(ZU(3,6),dp) 4 1 -8.27602955E-06 # Real(ZU(4,1),dp) 4 2 -1.91448833E-06 # Real(ZU(4,2),dp) 4 3 -2.78429738E-08 # Real(ZU(4,3),dp) 4 4 -1.00000000E+00 # Real(ZU(4,4),dp) 4 5 3.61061868E-11 # Real(ZU(4,5),dp) 4 6 -6.69599834E-11 # Real(ZU(4,6),dp) 5 1 1.39442550E-01 # Real(ZU(5,1),dp) 5 2 -9.89411958E-01 # Real(ZU(5,2),dp) 5 3 -4.00156605E-02 # Real(ZU(5,3),dp) 5 4 7.41301301E-07 # Real(ZU(5,4),dp) 5 5 4.29931768E-03 # Real(ZU(5,5),dp) 5 6 -1.26489998E-04 # Real(ZU(5,6),dp) 6 1 9.90212942E-01 # Real(ZU(6,1),dp) 6 2 1.39564165E-01 # Real(ZU(6,2),dp) 6 3 -1.75353967E-04 # Real(ZU(6,3),dp) 6 4 -8.46222064E-06 # Real(ZU(6,4),dp) 6 5 3.76420936E-04 # Real(ZU(6,5),dp) 6 6 -5.61075373E-07 # Real(ZU(6,6),dp) Block SELMIX Q= 2.45474144E+03 # () 1 1 0.00000000E+00 # Real(ZE(1,1),dp) 1 2 0.00000000E+00 # Real(ZE(1,2),dp) 1 3 -5.87299226E-02 # 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 -9.98273908E-01 # Real(ZE(1,6),dp) 2 1 -2.88573811E-17 # Real(ZE(2,1),dp) 2 2 3.73358055E-03 # Real(ZE(2,2),dp) 2 3 0.00000000E+00 # Real(ZE(2,3),dp) 2 4 -1.59847361E-12 # Real(ZE(2,4),dp) 2 5 9.99993030E-01 # Real(ZE(2,5),dp) 2 6 0.00000000E+00 # Real(ZE(2,6),dp) 3 1 1.80612933E-05 # Real(ZE(3,1),dp) 3 2 5.84277613E-15 # Real(ZE(3,2),dp) 3 3 0.00000000E+00 # Real(ZE(3,3),dp) 3 4 1.00000000E+00 # Real(ZE(3,4),dp) 3 5 1.59846293E-12 # Real(ZE(3,5),dp) 3 6 0.00000000E+00 # Real(ZE(3,6),dp) 4 1 0.00000000E+00 # Real(ZE(4,1),dp) 4 2 0.00000000E+00 # Real(ZE(4,2),dp) 4 3 -9.98273908E-01 # Real(ZE(4,3),dp) 4 4 0.00000000E+00 # Real(ZE(4,4),dp) 4 5 0.00000000E+00 # Real(ZE(4,5),dp) 4 6 5.87299226E-02 # Real(ZE(4,6),dp) 5 1 7.51870133E-18 # Real(ZE(5,1),dp) 5 2 9.99993030E-01 # Real(ZE(5,2),dp) 5 3 0.00000000E+00 # Real(ZE(5,3),dp) 5 4 1.25254609E-16 # Real(ZE(5,4),dp) 5 5 -3.73358055E-03 # Real(ZE(5,5),dp) 5 6 0.00000000E+00 # Real(ZE(5,6),dp) 6 1 -1.00000000E+00 # Real(ZE(6,1),dp) 6 2 7.51762934E-18 # Real(ZE(6,2),dp) 6 3 0.00000000E+00 # Real(ZE(6,3),dp) 6 4 1.80612933E-05 # Real(ZE(6,4),dp) 6 5 -1.49437288E-20 # Real(ZE(6,5),dp) 6 6 0.00000000E+00 # Real(ZE(6,6),dp) Block SCALARMIX Q= 2.45474144E+03 # () 1 1 -1.04459149E-01 # ZH(1,1) 1 2 -9.94529178E-01 # ZH(1,2) 2 1 -9.94529178E-01 # ZH(2,1) 2 2 1.04459149E-01 # ZH(2,2) Block PSEUDOSCALARMIX Q= 2.45474144E+03 # () 1 1 1.04169487E-01 # ZA(1,1) 1 2 -9.94559560E-01 # ZA(1,2) 2 1 -9.94559560E-01 # ZA(2,1) 2 2 -1.04169487E-01 # ZA(2,2) Block CHARGEMIX Q= 2.45474144E+03 # () 1 1 1.04169738E-01 # ZP(1,1) 1 2 -9.94559533E-01 # ZP(1,2) 2 1 -9.94559533E-01 # ZP(2,1) 2 2 -1.04169738E-01 # ZP(2,2) Block NMIX Q= 2.45474144E+03 # () 1 1 9.99634107E-01 # Real(ZN(1,1),dp) 1 2 -1.75729057E-03 # Real(ZN(1,2),dp) 1 3 2.49459869E-02 # Real(ZN(1,3),dp) 1 4 -1.03083596E-02 # Real(ZN(1,4),dp) 2 1 -3.69252525E-03 # Real(ZN(2,1),dp) 2 2 -9.97316339E-01 # Real(ZN(2,2),dp) 2 3 6.11387489E-02 # Real(ZN(2,3),dp) 2 4 -4.01065899E-02 # Real(ZN(2,4),dp) 3 1 0.00000000E+00 # Real(ZN(3,1),dp) 3 2 0.00000000E+00 # Real(ZN(3,2),dp) 3 3 0.00000000E+00 # Real(ZN(3,3),dp) 3 4 0.00000000E+00 # Real(ZN(3,4),dp) 4 1 -2.47297361E-02 # Real(ZN(4,1),dp) 4 2 7.16541411E-02 # Real(ZN(4,2),dp) 4 3 7.04371852E-01 # Real(ZN(4,3),dp) 4 4 -7.05772215E-01 # Real(ZN(4,4),dp) Block IMNMIX Q= 2.45474144E+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)) 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)) 3 1 1.03178496E-02 # Aimag(ZN(3,1)) 3 2 -1.49236692E-02 # Aimag(ZN(3,2)) 3 3 -7.06753172E-01 # Aimag(ZN(3,3)) 3 4 -7.07227531E-01 # Aimag(ZN(3,4)) 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)) Block UMIX Q= 2.45474144E+03 # () 1 1 9.96203607E-01 # Real(UM(1,1),dp) 1 2 -8.70538536E-02 # Real(UM(1,2),dp) 2 1 8.70538536E-02 # Real(UM(2,1),dp) 2 2 9.96203607E-01 # Real(UM(2,2),dp) Block VMIX Q= 2.45474144E+03 # () 1 1 9.98352649E-01 # Real(UP(1,1),dp) 1 2 -5.73758507E-02 # Real(UP(1,2),dp) 2 1 5.73758507E-02 # Real(UP(2,1),dp) 2 2 9.98352649E-01 # Real(UP(2,2),dp) Block UELMIX Q= 2.45474144E+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 UERMIX Q= 2.45474144E+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 UDLMIX Q= 2.45474144E+03 # () 1 1 9.99999999E-01 # Real(ZDL(1,1),dp) 1 2 1.52539587E-06 # Real(ZDL(1,2),dp) 1 3 -3.71655283E-05 # Real(ZDL(1,3),dp) 2 1 -1.51588984E-06 # Real(ZDL(2,1),dp) 2 2 9.99999967E-01 # Real(ZDL(2,2),dp) 2 3 2.55773926E-04 # Real(ZDL(2,3),dp) 3 1 3.71659173E-05 # Real(ZDL(3,1),dp) 3 2 -2.55773870E-04 # Real(ZDL(3,2),dp) 3 3 9.99999967E-01 # Real(ZDL(3,3),dp) Block UDRMIX Q= 2.45474144E+03 # () 1 1 1.00000000E+00 # Real(ZDR(1,1),dp) 1 2 1.59625469E-07 # Real(ZDR(1,2),dp) 1 3 -7.52202866E-08 # Real(ZDR(1,3),dp) 2 1 -1.59624729E-07 # Real(ZDR(2,1),dp) 2 2 1.00000000E+00 # Real(ZDR(2,2),dp) 2 3 9.83213188E-06 # Real(ZDR(2,3),dp) 3 1 7.52218561E-08 # Real(ZDR(3,1),dp) 3 2 -9.83213187E-06 # Real(ZDR(3,2),dp) 3 3 1.00000000E+00 # Real(ZDR(3,3),dp) Block UULMIX Q= 2.45474144E+03 # () 1 1 9.74272169E-01 # Real(ZUL(1,1),dp) 1 2 2.25348697E-01 # Real(ZUL(1,2),dp) 1 3 3.42124195E-03 # Real(ZUL(1,3),dp) 2 1 -2.25296365E-01 # Real(ZUL(2,1),dp) 2 2 9.73421336E-01 # Real(ZUL(2,2),dp) 2 3 4.11394171E-02 # Real(ZUL(2,3),dp) 3 1 5.94040415E-03 # Real(ZUL(3,1),dp) 3 2 -4.08517825E-02 # Real(ZUL(3,2),dp) 3 3 9.99147558E-01 # Real(ZUL(3,3),dp) Block UURMIX Q= 2.45474144E+03 # () 1 1 1.00000000E+00 # Real(ZUR(1,1),dp) 1 2 4.53494427E-09 # Real(ZUR(1,2),dp) 1 3 -1.18813156E-10 # Real(ZUR(1,3),dp) 2 1 -4.53494431E-09 # Real(ZUR(2,1),dp) 2 2 1.00000000E+00 # Real(ZUR(2,2),dp) 2 3 -3.48267795E-07 # Real(ZUR(2,3),dp) 3 1 1.18811577E-10 # Real(ZUR(3,1),dp) 3 2 3.48267795E-07 # Real(ZUR(3,2),dp) 3 3 1.00000000E+00 # Real(ZUR(3,3),dp) 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 1.27157351E+16 # GUT scale 33 2.45474144E+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 1.00000000E+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 1.54128475E+01 # Gluon fusion 2 25 1.22002523E+00 # Vector boson fusion 3 25 5.50135877E-01 # W-H production 4 25 3.20373028E-01 # Z-H production 5 25 8.31141988E-02 # t-t-H production Block HiggsLHC8 # Higgs production cross section at LHC8 [pb] (rescaled SM values from HXSWG) 1 25 1.96154930E+01 # Gluon fusion 2 25 1.57293353E+00 # Vector boson fusion 3 25 7.04762193E-01 # W-H production 4 25 4.00110430E-01 # Z-H production 5 25 1.25790826E-01 # t-t-H production Block HiggsLHC13 # Higgs production cross section at LHC13 [pb] (rescaled SM values from SusHI 1.5.0) 1 25 4.58162436E+01 # Gluon fusion Block HiggsLHC14 # Higgs production cross section at LHC14 [pb] (rescaled SM values from SusHI 1.5.0) 1 25 5.15910415E+01 # Gluon fusion Block HiggsFCC100 # Higgs production cross section at FCC-pp [pb] (rescaled SM values from SusHI 1.5.0) 1 25 7.59094901E+02 # Gluon fusion Block HiggsBoundsInputHiggsCouplingsFermions # 4.86365947E-01 0.00000000E+00 3 25 5 5 # h_1 b b coupling 3.50674508E-01 0.00000000E+00 3 25 3 3 # h_1 s s coupling 9.60102090E-01 0.00000000E+00 3 25 6 6 # h_1 t t coupling 2.24760844E-01 0.00000000E+00 3 25 4 4 # h_1 c c coupling 1.06214695E+00 0.00000000E+00 3 25 15 15 # h_1 tau tau coupling 1.03920743E+00 0.00000000E+00 3 25 13 13 # h_1 mu mu coupling 2.57187619E+01 0.00000000E+00 3 35 5 5 # h_2 b b coupling 1.80195818E+01 7.67245244E-32 3 35 3 3 # h_2 s s coupling 7.48192838E-03 0.00000000E+00 3 35 6 6 # h_2 t t coupling 2.41438991E-03 0.00000000E+00 3 35 4 4 # h_2 c c coupling 9.07865825E+01 0.00000000E+00 3 35 15 15 # h_2 tau tau coupling 9.07829833E+01 0.00000000E+00 3 35 13 13 # h_2 mu mu coupling 0.00000000E+00 2.57203333E+01 3 36 5 5 # A_2 b b coupling 7.67245244E-32 1.80206827E+01 3 36 3 3 # A_2 s s coupling 9.42198493E-35 7.44049149E-03 3 36 6 6 # A_2 t t coupling 0.00000000E+00 2.40101839E-03 3 36 4 4 # A_2 c c coupling 0.00000000E+00 9.07921294E+01 3 36 15 15 # A_2 tau tau coupling 0.00000000E+00 9.07885300E+01 3 36 13 13 # A_2 mu mu coupling Block HiggsBoundsInputHiggsCouplingsBosons # 1.00987244E+00 3 25 24 24 # h_1 W W coupling 1.00701050E+00 3 25 23 23 # h_1 Z Z coupling 0.00000000E+00 3 25 23 22 # h_1 Z gamma coupling 1.01548249E+00 3 25 22 22 # h_1 gamma gamma coupling 1.00073216E+00 3 25 21 21 # h_1 g g coupling 0.00000000E+00 4 25 21 21 23 # h_1 g g Z coupling 2.68154452E-05 3 35 24 24 # h_2 W W coupling 2.69060452E-05 3 35 23 23 # h_2 Z Z coupling 0.00000000E+00 3 35 23 22 # h_2 Z gamma coupling 2.42233793E-04 3 35 22 22 # h_2 gamma gamma coupling 5.51060877E-03 3 35 21 21 # h_2 g g coupling 0.00000000E+00 4 35 21 21 23 # h_2 g g Z coupling 0.00000000E+00 3 36 24 24 # A_2 W W coupling 0.00000000E+00 3 36 23 23 # A_2 Z Z coupling 0.00000000E+00 3 36 23 22 # A_2 Z gamma coupling 5.66058881E-04 3 36 22 22 # A_2 gamma gamma coupling 1.07964434E-02 3 36 21 21 # A_2 g g coupling 0.00000000E+00 4 36 21 21 23 # A_2 g g Z coupling 0.00000000E+00 3 25 25 23 # h_1 h_1 Z coupling 0.00000000E+00 3 25 35 23 # h_1 h_2 Z coupling 8.48275399E-08 3 25 36 23 # h_1 A_2 Z coupling 0.00000000E+00 3 35 25 23 # h_2 h_1 Z coupling 0.00000000E+00 3 35 35 23 # h_2 h_2 Z coupling 9.99999915E-01 3 35 36 23 # h_2 A_2 Z coupling 0.00000000E+00 3 36 36 23 # A_2 A_2 Z coupling Block EFFHIGGSCOUPLINGS # values of loop-induced couplings 25 22 22 0.31584896E-04 # H-Photon-Photon 25 21 21 0.64688558E-04 # H-Gluon-Gluon 25 22 23 0.00000000E+00 # H-Photon-Z (not yet calculated by SPheno) 35 22 22 0.14768259E-06 # H-Photon-Photon 35 21 21 0.74653399E-06 # H-Gluon-Gluon 35 22 23 0.00000000E+00 # H-Photon-Z (not yet calculated by SPheno) 36 22 22 0.25114146E-06 # A-Photon-Photon 36 21 21 0.10507233E-05 # A-Gluon-Gluon 36 22 23 0.00000000E+00 # A-Photon-Z (not yet calculated by SPheno) Block SPhenoLowEnergy # low energy observables 20 1.14224060E-15 # (g-2)_e 21 4.88358202E-11 # (g-2)_mu 22 1.39266732E-08 # (g-2)_tau 23 0.00000000E+00 # EDM(e) 24 0.00000000E+00 # EDM(mu) 25 0.00000000E+00 # EDM(tau) 39 4.80470521E-05 # delta(rho) Block FlavorKitQFV # quark flavor violating observables 200 3.16992145E-04 # BR(B->X_s gamma) 201 1.00632427E+00 # BR(B->X_s gamma)/BR(B->X_s gamma)_SM 300 2.63254359E-03 # BR(D->mu nu) 301 9.98906992E-01 # BR(D->mu nu)/BR(D->mu nu)_SM 400 2.49137110E-02 # BR(Ds->mu nu) 401 9.98782040E-01 # BR(Ds->mu nu)/BR(Ds->mu nu)_SM 402 2.43483571E-01 # BR(Ds->tau nu) 403 9.98782039E-01 # BR(Ds->tau nu)/BR(Ds->tau nu)_SM 500 2.28571312E-06 # BR(B->mu nu) 501 9.90664549E-01 # BR(B->mu nu)/BR(B->mu nu)_SM 502 5.08600999E-04 # BR(B->tau nu) 503 9.90664544E-01 # BR(B->tau nu)/BR(B->tau nu)_SM 600 2.82717111E+00 # BR(K->mu nu) 601 9.99918314E-01 # BR(K->mu nu)/BR(K->mu nu)_SM 602 2.47647734E-05 # R_K = BR(K->e nu)/(K->mu nu) 603 2.47607277E-05 # R_K^SM = BR(K->e nu)_SM/(K->mu nu)_SM 1900 1.78820449E+01 # Delta(M_Bs) 1901 1.00122773E+00 # Delta(M_Bs)/Delta(M_Bs)_SM 1902 3.99764355E-01 # Delta(M_Bd) 1903 1.00141635E+00 # Delta(M_Bd)/Delta(M_Bd)_SM 4000 2.48012643E-15 # BR(B^0_d->e e) 4001 9.99286753E-01 # BR(B^0_d->e e)/BR(B^0_d->e e)_SM 4002 7.70011936E-14 # BR(B^0_s->e e) 4003 9.99186256E-01 # BR(B^0_s->e e)/BR(B^0_s->e e)_SM 4004 1.05948215E-10 # BR(B^0_d->mu mu) 4005 9.99286786E-01 # BR(B^0_d->mu mu)/BR(B^0_d->mu mu)_SM 4006 3.28948953E-09 # BR(B^0_s->mu mu) 4007 9.99186290E-01 # BR(B^0_s->mu mu)/BR(B^0_s->mu mu)_SM 4008 2.21764411E-08 # BR(B^0_d->tau tau) 4009 9.99296357E-01 # BR(B^0_d->tau tau)/BR(B^0_d->tau tau)_SM 4010 6.97645592E-07 # BR(B^0_s->tau tau) 4011 9.99195803E-01 # BR(B^0_s->tau tau)/BR(B^0_s->tau tau)_SM 5000 1.64056949E-06 # BR(B-> s e e) 5001 9.91106993E-01 # BR(B-> s e e)/BR(B-> s e e)_SM 5002 1.59026973E-06 # BR(B-> s mu mu) 5003 9.90951920E-01 # BR(B-> s mu mu)/BR(B-> s mu mu)_SM 6000 1.09836879E-07 # BR(B -> K mu mu) 6001 9.89521431E-01 # BR(B -> K mu mu)/BR(B -> K mu mu)_SM 7000 4.09409786E-05 # BR(B->s nu nu) 7001 9.99736796E-01 # BR(B->s nu nu)/BR(B->s nu nu)_SM 7002 1.89568236E-06 # BR(B->D nu nu) 7003 9.99738573E-01 # BR(B->D nu nu)/BR(B->D nu nu)_SM 8000 1.29755847E-10 # BR(K^+ -> pi^+ nu nu) 8001 9.99846525E-01 # BR(K^+ -> pi^+ nu nu)/BR(K^+ -> pi^+ nu nu)_SM 8002 3.02615803E-11 # BR(K_L -> pi^0 nu nu) 8003 9.99741759E-01 # BR(K_L -> pi^0 nu nu)/BR(K_L -> pi^0 nu nu)_SM 9100 1.94971619E-15 # Delta(M_K) 9102 1.00001722E+00 # Delta(M_K)/Delta(M_K)_SM 9103 1.84755314E-03 # epsilon_K 9104 1.00122884E+00 # epsilon_K/epsilon_K^SM Block FlavorKitLFV # lepton flavor violating observables 701 8.55490520E-34 # BR(mu->e gamma) 702 4.87917209E-65 # BR(tau->e gamma) 703 2.79136720E-37 # BR(tau->mu gamma) 800 2.67738403E-36 # CR(mu-e, Al) 801 4.81887157E-36 # CR(mu-e, Ti) 802 6.52210692E-36 # CR(mu-e, Sr) 803 7.33659507E-36 # CR(mu-e, Sb) 804 3.95214511E-36 # CR(mu-e, Au) 805 3.71751629E-36 # CR(mu-e, Pb) 901 6.01419578E-36 # BR(mu->3e) 902 5.87549424E-67 # BR(tau->3e) 903 7.17144001E-40 # BR(tau->3mu) 904 1.14680401E-67 # BR(tau- -> e- mu+ mu-) 905 3.30033351E-39 # BR(tau- -> mu- e+ e-) 906 6.61326756E-78 # BR(tau- -> e+ mu- mu-) 907 3.30429756-107 # BR(tau- -> mu+ e- e-) 1001 9.55295653E-47 # BR(Z->e mu) 1002 2.15222260E-72 # BR(Z->e tau) 1003 1.23017320E-44 # BR(Z->mu tau) 1101 1.48707049E-33 # BR(h->e mu) 1102 1.66615019E-62 # BR(h->e tau) 1103 9.52041674E-35 # BR(h->mu tau) 2001 1.49557450E-72 # BR(tau->e pi) 2002 1.45456081E-72 # BR(tau->e eta) 2003 1.63254977E-72 # BR(tau->e eta') 2004 8.53999062E-45 # BR(tau->mu pi) 2005 8.52014842E-45 # BR(tau->mu eta) 2006 9.56276412E-45 # BR(tau->mu eta') Block FWCOEF Q= 1.60000000E+02 # Wilson coefficients at scale Q 0305 4422 00 0 -0.17244799E-08 # coeffC7sm 0305 4422 00 2 -0.17348183E-08 # coeffC7 0305 4322 00 2 -0.33366334E-10 # coeffC7p 0305 4422 00 1 -0.10338427E-10 # coeffC7NP 0305 4322 00 1 -0.33366334E-10 # coeffC7pNP 0305 6421 00 0 -0.86377623E-09 # coeffC8sm 0305 6421 00 2 -0.90798264E-09 # coeffC8 0305 6321 00 2 -0.17456290E-10 # coeffC8p 0305 6421 00 1 -0.44206413E-10 # coeffC8NP 0305 6321 00 1 -0.17456290E-10 # coeffC8pNP 03051111 4133 00 0 0.10360670E-08 # coeffC9eeSM 03051111 4133 00 2 0.10359224E-08 # coeffC9ee 03051111 4233 00 2 -0.25153795E-14 # coeffC9Pee 03051111 4133 00 1 -0.14459149E-12 # coeffC9eeNP 03051111 4233 00 1 -0.25153795E-14 # coeffC9PeeNP 03051111 4137 00 0 -0.39442756E-08 # coeffC10eeSM 03051111 4137 00 2 -0.39434536E-08 # coeffC10ee 03051111 4237 00 2 -0.25370087E-13 # coeffC10Pee 03051111 4137 00 1 0.82201945E-12 # coeffC10eeNP 03051111 4237 00 1 -0.25370087E-13 # coeffC10PeeNP 03051313 4133 00 0 0.10360665E-08 # coeffC9mumuSM 03051313 4133 00 2 0.10359218E-08 # coeffC9mumu 03051313 4233 00 2 -0.25153717E-14 # coeffC9Pmumu 03051313 4133 00 1 -0.14466810E-12 # coeffC9mumuNP 03051313 4233 00 1 -0.25153717E-14 # coeffC9PmumuNP 03051313 4137 00 0 -0.39442761E-08 # coeffC10mumuSM 03051313 4137 00 2 -0.39434542E-08 # coeffC10mumu 03051313 4237 00 2 -0.25370089E-13 # coeffC10Pmumu 03051313 4137 00 1 0.82194515E-12 # coeffC10mumuNP 03051313 4237 00 1 -0.25370089E-13 # coeffC10PmumuNP 03051212 4141 00 0 -0.12184348E-07 # coeffCLnu1nu1SM 03051212 4141 00 2 -0.12182760E-07 # coeffCLnu1nu1 03051212 4241 00 2 0.50739397E-13 # coeffCLPnu1nu1 03051212 4141 00 1 0.15885027E-11 # coeffCLnu1nu1NP 03051212 4241 00 1 0.50739397E-13 # coeffCLPnu1nu1NP 03051414 4141 00 0 -0.12184232E-07 # coeffCLnu2nu2SM 03051414 4141 00 2 -0.12182643E-07 # coeffCLnu2nu2 03051414 4241 00 2 0.50739383E-13 # coeffCLPnu2nu2 03051414 4141 00 1 0.15886647E-11 # coeffCLnu2nu2NP 03051414 4241 00 1 0.50739383E-13 # coeffCLPnu2nu2NP 03051616 4141 00 0 -0.12159446E-07 # coeffCLnu3nu3SM 03051616 4141 00 2 -0.12157811E-07 # coeffCLnu3nu3 03051616 4241 00 2 0.50735205E-13 # coeffCLPnu3nu3 03051616 4141 00 1 0.16350788E-11 # coeffCLnu3nu3NP 03051616 4241 00 1 0.50735205E-13 # coeffCLPnu3nu3NP 03051212 4142 00 0 0.00000000E+00 # coeffCRnu1nu1SM 03051212 4142 00 2 0.00000000E+00 # coeffCRnu1nu1 03051212 4242 00 2 0.00000000E+00 # coeffCRPnu1nu1 03051212 4142 00 1 0.00000000E+00 # coeffCRnu1nu1NP 03051212 4242 00 1 0.00000000E+00 # coeffCRPnu1nu1NP 03051414 4142 00 0 0.00000000E+00 # coeffCRnu2nu2SM 03051414 4142 00 2 0.00000000E+00 # coeffCRnu2nu2 03051414 4242 00 2 0.00000000E+00 # coeffCRPnu2nu2 03051414 4142 00 1 0.00000000E+00 # coeffCRnu2nu2NP 03051414 4242 00 1 0.00000000E+00 # coeffCRPnu2nu2NP 03051616 4142 00 0 0.00000000E+00 # coeffCRnu3nu3SM 03051616 4142 00 2 0.00000000E+00 # coeffCRnu3nu3 03051616 4242 00 2 0.00000000E+00 # coeffCRPnu3nu3 03051616 4142 00 1 0.00000000E+00 # coeffCRnu3nu3NP 03051616 4242 00 1 0.00000000E+00 # coeffCRPnu3nu3NP 01030103 3131 00 2 -0.17895855E-23 # coeffKK_SLL 01030103 3232 00 2 -0.64602903E-21 # coeffKK_SRR 01030103 3132 00 2 -0.91283280E-20 # coeffKK_SLR 01030103 4141 00 2 0.96377630E-13 # coeffKK_VLL 01030103 4242 00 2 0.51736693E-29 # coeffKK_VRR 01030103 4142 00 2 -0.33075307E-22 # coeffKK_VLR 01030103 4343 00 2 -0.43892417E-26 # coeffKK_TLL 01030103 4444 00 2 -0.15848872E-23 # coeffKK_TRR 01050105 3131 00 2 -0.96339907E-21 # coeffBB_SLL 01050105 3232 00 2 -0.93924072E-15 # coeffBB_SRR 01050105 3132 00 2 -0.97090469E-17 # coeffBB_SLR 01050105 4141 00 2 0.33503918E-11 # coeffBB_VLL 01050105 4242 00 2 0.38787610E-24 # coeffBB_VRR 01050105 4142 00 2 -0.92642947E-18 # coeffBB_VLR 01050105 4343 00 2 -0.21509941E-25 # coeffBB_TLL 01050105 4444 00 2 -0.22248928E-19 # coeffBB_TRR 03050305 3131 00 2 -0.10159731E-16 # coeffBsBs_SLL 03050305 3232 00 2 -0.27438218E-13 # coeffBsBs_SRR 03050305 3132 00 2 -0.53897151E-14 # coeffBsBs_SLR 03050305 4141 00 2 0.97889126E-10 # coeffBsBs_VLL 03050305 4242 00 2 0.41789059E-20 # coeffBsBs_VRR 03050305 4142 00 2 -0.51147425E-15 # coeffBsBs_VLR 03050305 4343 00 2 -0.24363154E-21 # coeffBsBs_TLL 03050305 4444 00 2 -0.65950863E-18 # coeffBsBs_TRR 01030103 3131 00 1 0.56062695E-25 # coeffKK_SLLNP 01030103 3232 00 1 0.20237831E-22 # coeffKK_SRRNP 01030103 3132 00 1 -0.66210290E-21 # coeffKK_SLRNP 01030103 4141 00 1 0.73846796E-17 # coeffKK_VLLNP 01030103 4242 00 1 -0.66327194E-29 # coeffKK_VRRNP 01030103 4142 00 1 0.19916885E-23 # coeffKK_VLRNP 01030103 4343 00 1 -0.43892417E-26 # coeffKK_TLLNP 01030103 4444 00 1 -0.15848872E-23 # coeffKK_TRRNP 01050105 3131 00 1 0.75793614E-23 # coeffBB_SLLNP 01050105 3232 00 1 0.73944118E-17 # coeffBB_SRRNP 01050105 3132 00 1 -0.20466654E-17 # coeffBB_SLRNP 01050105 4141 00 1 0.30046948E-14 # coeffBB_VLLNP 01050105 4242 00 1 0.10582304E-24 # coeffBB_VRRNP 01050105 4142 00 1 0.32300050E-19 # coeffBB_VLRNP 01050105 4343 00 1 -0.21509941E-25 # coeffBB_TLLNP 01050105 4444 00 1 -0.22248928E-19 # coeffBB_TRRNP 03050305 3131 00 1 0.79988820E-19 # coeffBsBs_SLLNP 03050305 3232 00 1 0.21602871E-15 # coeffBsBs_SRRNP 03050305 3132 00 1 -0.11354403E-14 # coeffBsBs_SLRNP 03050305 4141 00 1 0.87799924E-13 # coeffBsBs_VLLNP 03050305 4242 00 1 0.12026150E-20 # coeffBsBs_VRRNP 03050305 4142 00 1 0.20664594E-16 # coeffBsBs_VLRNP 03050305 4343 00 1 -0.24363154E-21 # coeffBsBs_TLLNP 03050305 4444 00 1 -0.65950863E-18 # coeffBsBs_TRRNP 01030103 3131 00 0 -0.18456482E-23 # coeffKK_SLLSM 01030103 3232 00 0 -0.66626686E-21 # coeffKK_SRRSM 01030103 3132 00 0 -0.84662251E-20 # coeffKK_SLRSM 01030103 4141 00 0 0.96370245E-13 # coeffKK_VLLSM 01030103 4242 00 0 0.11806389E-28 # coeffKK_VRRSM 01030103 4142 00 0 -0.35066996E-22 # coeffKK_VLRSM 01030103 4343 00 0 -0.61783541E-47 # coeffKK_TLLSM 01030103 4444 00 0 -0.63769435E-45 # coeffKK_TRRSM 01050105 3131 00 0 -0.97097843E-21 # coeffBB_SLLSM 01050105 3232 00 0 -0.94663513E-15 # coeffBB_SRRSM 01050105 3132 00 0 -0.76623815E-17 # coeffBB_SLRSM 01050105 4141 00 0 0.33473871E-11 # coeffBB_VLLSM 01050105 4242 00 0 0.28205306E-24 # coeffBB_VRRSM 01050105 4142 00 0 -0.95872952E-18 # coeffBB_VLRSM 01050105 4343 00 0 -0.13041874E-53 # coeffBB_TLLSM 01050105 4444 00 0 -0.11938986E-47 # coeffBB_TRRSM 03050305 3131 00 0 -0.10239720E-16 # coeffBsBs_SLLSM 03050305 3232 00 0 -0.27654246E-13 # coeffBsBs_SRRSM 03050305 3132 00 0 -0.42542748E-14 # coeffBsBs_SLRSM 03050305 4141 00 0 0.97801326E-10 # coeffBsBs_VLLSM 03050305 4242 00 0 0.29762908E-20 # coeffBsBs_VRRSM 03050305 4142 00 0 -0.53213884E-15 # coeffBsBs_VLRSM 03050305 4343 00 0 -0.13513866E-50 # coeffBsBs_TLLSM 03050305 4444 00 0 -0.12494895E-46 # coeffBsBs_TRRSM Block IMFWCOEF Q= 1.60000000E+02 # Im(Wilson coefficients) at scale Q 0305 4422 00 0 0.64275156E-10 # coeffC7sm 0305 4422 00 2 0.63991620E-10 # coeffC7 0305 4322 00 2 0.23116266E-11 # coeffC7p 0305 4422 00 1 -0.28353515E-12 # coeffC7NP 0305 4322 00 1 0.23116266E-11 # coeffC7pNP 0305 6421 00 0 0.74437180E-10 # coeffC8sm 0305 6421 00 2 0.73653614E-10 # coeffC8 0305 6321 00 2 0.14165763E-11 # coeffC8p 0305 6421 00 1 -0.78356531E-12 # coeffC8NP 0305 6321 00 1 0.14165763E-11 # coeffC8pNP 03051111 4133 00 0 -0.18499575E-10 # coeffC9eeSM 03051111 4133 00 2 -0.18498170E-10 # coeffC9ee 03051111 4233 00 2 0.44594165E-16 # coeffC9Pee 03051111 4133 00 1 0.14053663E-14 # coeffC9eeNP 03051111 4233 00 1 0.44594165E-16 # coeffC9PeeNP 03051111 4137 00 0 0.70390423E-10 # coeffC10eeSM 03051111 4137 00 2 0.70376525E-10 # coeffC10ee 03051111 4237 00 2 0.44973134E-15 # coeffC10Pee 03051111 4137 00 1 -0.13897842E-13 # coeffC10eeNP 03051111 4237 00 1 0.44973134E-15 # coeffC10PeeNP 03051313 4133 00 0 -0.18499566E-10 # coeffC9mumuSM 03051313 4133 00 2 -0.18498160E-10 # coeffC9mumu 03051313 4233 00 2 0.44593978E-16 # coeffC9Pmumu 03051313 4133 00 1 0.14067137E-14 # coeffC9mumuNP 03051313 4233 00 1 0.44593978E-16 # coeffC9PmumuNP 03051313 4137 00 0 0.70390432E-10 # coeffC10mumuSM 03051313 4137 00 2 0.70376536E-10 # coeffC10mumu 03051313 4237 00 2 0.44973153E-15 # coeffC10Pmumu 03051313 4137 00 1 -0.13896496E-13 # coeffC10mumuNP 03051313 4237 00 1 0.44973153E-15 # coeffC10PmumuNP 03051212 4141 00 0 0.21750915E-09 # coeffCLnu1nu1SM 03051212 4141 00 2 0.21748139E-09 # coeffCLnu1nu1 03051212 4241 00 2 -0.89946712E-15 # coeffCLPnu1nu1 03051212 4141 00 1 -0.27757949E-13 # coeffCLnu1nu1NP 03051212 4241 00 1 -0.89946712E-15 # coeffCLPnu1nu1NP 03051414 4141 00 0 0.21750615E-09 # coeffCLnu2nu2SM 03051414 4141 00 2 0.21747839E-09 # coeffCLnu2nu2 03051414 4241 00 2 -0.89946675E-15 # coeffCLPnu2nu2 03051414 4141 00 1 -0.27760786E-13 # coeffCLnu2nu2NP 03051414 4241 00 1 -0.89946675E-15 # coeffCLPnu2nu2NP 03051616 4141 00 0 0.21704156E-09 # coeffCLnu3nu3SM 03051616 4141 00 2 0.21701299E-09 # coeffCLnu3nu3 03051616 4241 00 2 -0.89936152E-15 # coeffCLPnu3nu3 03051616 4141 00 1 -0.28573456E-13 # coeffCLnu3nu3NP 03051616 4241 00 1 -0.89936152E-15 # coeffCLPnu3nu3NP 03051212 4142 00 0 0.00000000E+00 # coeffCRnu1nu1SM 03051212 4142 00 2 0.00000000E+00 # coeffCRnu1nu1 03051212 4242 00 2 0.00000000E+00 # coeffCRPnu1nu1 03051212 4142 00 1 0.00000000E+00 # coeffCRnu1nu1NP 03051212 4242 00 1 0.00000000E+00 # coeffCRPnu1nu1NP 03051414 4142 00 0 0.00000000E+00 # coeffCRnu2nu2SM 03051414 4142 00 2 0.00000000E+00 # coeffCRnu2nu2 03051414 4242 00 2 0.00000000E+00 # coeffCRPnu2nu2 03051414 4142 00 1 0.00000000E+00 # coeffCRnu2nu2NP 03051414 4242 00 1 0.00000000E+00 # coeffCRPnu2nu2NP 03051616 4142 00 0 0.00000000E+00 # coeffCRnu3nu3SM 03051616 4142 00 2 0.00000000E+00 # coeffCRnu3nu3 03051616 4242 00 2 0.00000000E+00 # coeffCRPnu3nu3 03051616 4142 00 1 0.00000000E+00 # coeffCRnu3nu3NP 03051616 4242 00 1 0.00000000E+00 # coeffCRPnu3nu3NP 01030103 3131 00 2 -0.15900954E-23 # coeffKK_SLL 01030103 3232 00 2 -0.57400434E-21 # coeffKK_SRR 01030103 3132 00 2 -0.37613879E-21 # coeffKK_SLR 01030103 4141 00 2 0.61832723E-14 # coeffKK_VLL 01030103 4242 00 2 0.21543924E-29 # coeffKK_VRR 01030103 4142 00 2 -0.29896436E-22 # coeffKK_VLR 01030103 4343 00 2 -0.24875552E-28 # coeffKK_TLL 01030103 4444 00 2 -0.11406065E-25 # coeffKK_TRR 01050105 3131 00 2 -0.87082769E-21 # coeffBB_SLL 01050105 3232 00 2 -0.84897890E-15 # coeffBB_SRR 01050105 3132 00 2 -0.87828713E-17 # coeffBB_SLR 01050105 4141 00 2 0.30292825E-11 # coeffBB_VLL 01050105 4242 00 2 0.33922862E-24 # coeffBB_VRR 01050105 4142 00 2 -0.85061800E-18 # coeffBB_VLR 01050105 4343 00 2 -0.15431037E-25 # coeffBB_TLL 01050105 4444 00 2 -0.19132005E-19 # coeffBB_TRR 03050305 3131 00 2 0.36276824E-18 # coeffBsBs_SLL 03050305 3232 00 2 0.97970654E-15 # coeffBsBs_SRR 03050305 3132 00 2 0.19258529E-15 # coeffBsBs_SLR 03050305 4141 00 2 -0.34958598E-11 # coeffBsBs_VLL 03050305 4242 00 2 -0.14136196E-21 # coeffBsBs_VRR 03050305 4142 00 2 0.18574296E-16 # coeffBsBs_VLR 03050305 4343 00 2 0.68367660E-23 # coeffBsBs_TLL 03050305 4444 00 2 0.22406210E-19 # coeffBsBs_TRR 01030103 3131 00 1 0.12082465E-25 # coeffKK_SLLNP 01030103 3232 00 1 0.43713583E-23 # coeffKK_SRRNP 01030103 3132 00 1 -0.68318901E-22 # coeffKK_SLRNP 01030103 4141 00 1 0.47118603E-17 # coeffKK_VLLNP 01030103 4242 00 1 0.18905616E-29 # coeffKK_VRRNP 01030103 4142 00 1 0.54466740E-24 # coeffKK_VLRNP 01030103 4343 00 1 -0.24875552E-28 # coeffKK_TLLNP 01030103 4444 00 1 -0.11406065E-25 # coeffKK_TRRNP 01050105 3131 00 1 0.68352110E-23 # coeffBB_SLLNP 01050105 3232 00 1 0.66801990E-17 # coeffBB_SRRNP 01050105 3132 00 1 -0.18523715E-17 # coeffBB_SLRNP 01050105 4141 00 1 0.27140818E-14 # coeffBB_VLLNP 01050105 4242 00 1 0.83949910E-25 # coeffBB_VRRNP 01050105 4142 00 1 0.15973160E-19 # coeffBB_VLRNP 01050105 4343 00 1 -0.15431037E-25 # coeffBB_TLLNP 01050105 4444 00 1 -0.19132005E-19 # coeffBB_TRRNP 03050305 3131 00 1 -0.28490268E-20 # coeffBsBs_SLLNP 03050305 3232 00 1 -0.77100922E-17 # coeffBsBs_SRRNP 03050305 3132 00 1 0.40619421E-16 # coeffBsBs_SLRNP 03050305 4141 00 1 -0.31320705E-14 # coeffBsBs_VLLNP 03050305 4242 00 1 -0.35002044E-22 # coeffBsBs_VRRNP 03050305 4142 00 1 -0.42613978E-18 # coeffBsBs_VLRNP 03050305 4343 00 1 0.68367660E-23 # coeffBsBs_TLLNP 03050305 4444 00 1 0.22406210E-19 # coeffBsBs_TRRNP 01030103 3131 00 0 -0.16021779E-23 # coeffKK_SLLSM 01030103 3232 00 0 -0.57837570E-21 # coeffKK_SRRSM 01030103 3132 00 0 -0.30781989E-21 # coeffKK_SLRSM 01030103 4141 00 0 0.61785604E-14 # coeffKK_VLLSM 01030103 4242 00 0 0.26383073E-30 # coeffKK_VRRSM 01030103 4142 00 0 -0.30441103E-22 # coeffKK_VLRSM 01030103 4343 00 0 0.26965133E-47 # coeffKK_TLLSM 01030103 4444 00 0 0.57075289E-45 # coeffKK_TRRSM 01050105 3131 00 0 -0.87766290E-21 # coeffBB_SLLSM 01050105 3232 00 0 -0.85565910E-15 # coeffBB_SRRSM 01050105 3132 00 0 -0.69304998E-17 # coeffBB_SLRSM 01050105 4141 00 0 0.30265684E-11 # coeffBB_VLLSM 01050105 4242 00 0 0.25527871E-24 # coeffBB_VRRSM 01050105 4142 00 0 -0.86659116E-18 # coeffBB_VLRSM 01050105 4343 00 0 -0.33122220E-54 # coeffBB_TLLSM 01050105 4444 00 0 -0.10419479E-47 # coeffBB_TRRSM 03050305 3131 00 0 0.36561727E-18 # coeffBsBs_SLLSM 03050305 3232 00 0 0.98741663E-15 # coeffBsBs_SRRSM 03050305 3132 00 0 0.15196587E-15 # coeffBsBs_SLRSM 03050305 4141 00 0 -0.34927277E-11 # coeffBsBs_VLLSM 03050305 4242 00 0 -0.10635992E-21 # coeffBsBs_VRRSM 03050305 4142 00 0 0.19000436E-16 # coeffBsBs_VLRSM 03050305 4343 00 0 -0.16958576E-51 # coeffBsBs_TLLSM 03050305 4444 00 0 0.65121743E-48 # coeffBsBs_TRRSM Block FineTuning # 0 1.05178715E+03 # Overall FT 1 1.49541553E+01 # m0 2 8.27393275E+02 # m12 3 2.89061254E+02 # Azero 4 1.05178715E+03 # \[Mu] 5 1.68795379E+01 # B[\[Mu]] DECAY 1000001 5.02878098E+01 # Sd_1 # BR NDA ID1 ID2 2.91414709E-01 2 6 -1000024 # BR(Sd_1 -> Fu_3 Cha_1 ) 1.70506408E-01 2 6 -1000037 # BR(Sd_1 -> Fu_3 Cha_2 ) 2.29147062E-04 2 3 1000023 # BR(Sd_1 -> Fd_2 Chi_2 ) 7.62513081E-03 2 5 1000022 # BR(Sd_1 -> Fd_3 Chi_1 ) 1.47942737E-01 2 5 1000023 # BR(Sd_1 -> Fd_3 Chi_2 ) 1.91233685E-03 2 5 1000025 # BR(Sd_1 -> Fd_3 Chi_3 ) 2.12204677E-03 2 5 1000035 # BR(Sd_1 -> Fd_3 Chi_4 ) 3.78229750E-01 2 1000002 -24 # BR(Sd_1 -> Su_1 VWm ) DECAY 1000003 2.50796627E+00 # Sd_2 # BR NDA ID1 ID2 1.83008483E-04 2 4 -1000037 # BR(Sd_2 -> Fu_2 Cha_2 ) 2.29428601E-03 2 6 -1000024 # BR(Sd_2 -> Fu_3 Cha_1 ) 1.30608082E-01 2 6 -1000037 # BR(Sd_2 -> Fu_3 Cha_2 ) 6.59471815E-01 2 5 1000022 # BR(Sd_2 -> Fd_3 Chi_1 ) 1.16221980E-03 2 5 1000023 # BR(Sd_2 -> Fd_3 Chi_2 ) 5.91567891E-02 2 5 1000025 # BR(Sd_2 -> Fd_3 Chi_3 ) 5.99402844E-02 2 5 1000035 # BR(Sd_2 -> Fd_3 Chi_4 ) 1.86142190E-02 2 1000001 25 # BR(Sd_2 -> Sd_1 hh_1 ) 1.66709824E-02 2 1000001 23 # BR(Sd_2 -> Sd_1 VZ ) 2.53537125E-02 2 1000002 -24 # BR(Sd_2 -> Su_1 VWm ) 2.64143115E-02 2 1000004 -24 # BR(Sd_2 -> Su_2 VWm ) DECAY 1000005 1.67408614E+00 # Sd_3 # BR NDA ID1 ID2 9.99567134E-01 2 3 1000022 # BR(Sd_3 -> Fd_2 Chi_1 ) 2.41537968E-04 2 3 1000035 # BR(Sd_3 -> Fd_2 Chi_4 ) DECAY 2000001 1.67380164E+00 # Sd_4 # BR NDA ID1 ID2 9.99740620E-01 2 1 1000022 # BR(Sd_4 -> Fd_1 Chi_1 ) 2.11360725E-04 2 1 1000035 # BR(Sd_4 -> Fd_1 Chi_4 ) DECAY 2000003 2.90169211E+01 # Sd_5 # BR NDA ID1 ID2 4.24202139E-03 2 2 -1000024 # BR(Sd_5 -> Fu_1 Cha_1 ) 6.49703916E-01 2 4 -1000024 # BR(Sd_5 -> Fu_2 Cha_1 ) 2.40523708E-03 2 4 -1000037 # BR(Sd_5 -> Fu_2 Cha_2 ) 3.28038878E-04 2 1 1000022 # BR(Sd_5 -> Fd_1 Chi_1 ) 6.98573563E-03 2 1 1000023 # BR(Sd_5 -> Fd_1 Chi_2 ) 1.50153058E-02 2 3 1000022 # BR(Sd_5 -> Fd_2 Chi_1 ) 3.19756471E-01 2 3 1000023 # BR(Sd_5 -> Fd_2 Chi_2 ) 9.08955928E-04 2 3 1000035 # BR(Sd_5 -> Fd_2 Chi_4 ) 5.18860799E-04 2 5 1000023 # BR(Sd_5 -> Fd_3 Chi_2 ) DECAY 2000005 2.90165821E+01 # Sd_6 # BR NDA ID1 ID2 6.49731590E-01 2 2 -1000024 # BR(Sd_6 -> Fu_1 Cha_1 ) 2.39429511E-03 2 2 -1000037 # BR(Sd_6 -> Fu_1 Cha_2 ) 4.24224744E-03 2 4 -1000024 # BR(Sd_6 -> Fu_2 Cha_1 ) 1.50396415E-02 2 1 1000022 # BR(Sd_6 -> Fd_1 Chi_1 ) 3.20277493E-01 2 1 1000023 # BR(Sd_6 -> Fd_1 Chi_2 ) 9.08177684E-04 2 1 1000035 # BR(Sd_6 -> Fd_1 Chi_4 ) 3.28554099E-04 2 3 1000022 # BR(Sd_6 -> Fd_2 Chi_1 ) 6.99671463E-03 2 3 1000023 # BR(Sd_6 -> Fd_2 Chi_2 ) DECAY 1000002 5.65531202E+00 # Su_1 # BR NDA ID1 ID2 7.52326320E-01 2 6 1000022 # BR(Su_1 -> Fu_3 Chi_1 ) 4.05693979E-02 2 6 1000023 # BR(Su_1 -> Fu_3 Chi_2 ) 9.43769477E-03 2 6 1000025 # BR(Su_1 -> Fu_3 Chi_3 ) 1.37066727E-04 2 1000024 3 # BR(Su_1 -> Cha_1^* Fd_2 ) 8.43885310E-02 2 1000024 5 # BR(Su_1 -> Cha_1^* Fd_3 ) 1.86652913E-04 2 1000037 3 # BR(Su_1 -> Cha_2^* Fd_2 ) 1.12947487E-01 2 1000037 5 # BR(Su_1 -> Cha_2^* Fd_3 ) DECAY 1000004 5.07028164E+01 # Su_2 # BR NDA ID1 ID2 9.16485191E-03 2 6 1000022 # BR(Su_2 -> Fu_3 Chi_1 ) 1.39668516E-01 2 6 1000023 # BR(Su_2 -> Fu_3 Chi_2 ) 8.13612665E-02 2 6 1000025 # BR(Su_2 -> Fu_3 Chi_3 ) 9.40581360E-02 2 6 1000035 # BR(Su_2 -> Fu_3 Chi_4 ) 4.38412662E-04 2 1000024 3 # BR(Su_2 -> Cha_1^* Fd_2 ) 2.83354942E-01 2 1000024 5 # BR(Su_2 -> Cha_1^* Fd_3 ) 1.10738289E-02 2 1000037 5 # BR(Su_2 -> Cha_2^* Fd_3 ) 1.77996571E-01 2 1000002 25 # BR(Su_2 -> Su_1 hh_1 ) 2.02861872E-01 2 1000002 23 # BR(Su_2 -> Su_1 VZ ) DECAY 1000006 6.72760399E+00 # Su_3 # BR NDA ID1 ID2 9.99585493E-01 2 4 1000022 # BR(Su_3 -> Fu_2 Chi_1 ) 2.29319569E-04 2 4 1000035 # BR(Su_3 -> Fu_2 Chi_4 ) DECAY 2000002 6.72673684E+00 # Su_4 # BR NDA ID1 ID2 9.99738195E-01 2 2 1000022 # BR(Su_4 -> Fu_1 Chi_1 ) 2.13732957E-04 2 2 1000035 # BR(Su_4 -> Fu_1 Chi_4 ) DECAY 2000004 2.90487529E+01 # Su_5 # BR NDA ID1 ID2 1.12581063E-04 2 2 1000022 # BR(Su_5 -> Fu_1 Chi_1 ) 2.49409526E-03 2 2 1000023 # BR(Su_5 -> Fu_1 Chi_2 ) 1.46820126E-02 2 4 1000022 # BR(Su_5 -> Fu_2 Chi_1 ) 3.25167678E-01 2 4 1000023 # BR(Su_5 -> Fu_2 Chi_2 ) 7.11161739E-04 2 4 1000035 # BR(Su_5 -> Fu_2 Chi_4 ) 1.27501901E-02 2 1000024 1 # BR(Su_5 -> Cha_1^* Fd_1 ) 6.41934037E-01 2 1000024 3 # BR(Su_5 -> Cha_1^* Fd_2 ) 1.03723990E-03 2 1000024 5 # BR(Su_5 -> Cha_1^* Fd_3 ) 1.02784926E-03 2 1000037 3 # BR(Su_5 -> Cha_2^* Fd_2 ) DECAY 2000006 2.90485576E+01 # Su_6 # BR NDA ID1 ID2 1.46783601E-02 2 2 1000022 # BR(Su_6 -> Fu_1 Chi_1 ) 3.25182591E-01 2 2 1000023 # BR(Su_6 -> Fu_1 Chi_2 ) 7.05767604E-04 2 2 1000035 # BR(Su_6 -> Fu_1 Chi_4 ) 1.12613383E-04 2 4 1000022 # BR(Su_6 -> Fu_2 Chi_1 ) 2.49410027E-03 2 4 1000023 # BR(Su_6 -> Fu_2 Chi_2 ) 6.42977094E-01 2 1000024 1 # BR(Su_6 -> Cha_1^* Fd_1 ) 1.27725348E-02 2 1000024 3 # BR(Su_6 -> Cha_1^* Fd_2 ) 1.02422528E-03 2 1000037 1 # BR(Su_6 -> Cha_2^* Fd_1 ) DECAY 1000011 5.64947233E+00 # Se_1 # BR NDA ID1 ID2 1.69549205E-03 2 16 -1000024 # BR(Se_1 -> Fv_3 Cha_1 ) 9.97451697E-01 2 15 1000022 # BR(Se_1 -> Fe_3 Chi_1 ) 8.52810802E-04 2 15 1000023 # BR(Se_1 -> Fe_3 Chi_2 ) DECAY 1000013 5.81983954E+00 # Se_2 # BR NDA ID1 ID2 9.99985833E-01 2 13 1000022 # BR(Se_2 -> Fe_2 Chi_1 ) DECAY 1000015 5.82043687E+00 # Se_3 # BR NDA ID1 ID2 9.99996807E-01 2 11 1000022 # BR(Se_3 -> Fe_1 Chi_1 ) DECAY 2000011 7.53764834E+00 # Se_4 # BR NDA ID1 ID2 5.01655496E-01 2 16 -1000024 # BR(Se_4 -> Fv_3 Cha_1 ) 2.32771298E-01 2 15 1000022 # BR(Se_4 -> Fe_3 Chi_1 ) 2.52569779E-01 2 15 1000023 # BR(Se_4 -> Fe_3 Chi_2 ) 6.74333381E-03 2 1000011 25 # BR(Se_4 -> Se_1 hh_1 ) 6.26009324E-03 2 1000011 23 # BR(Se_4 -> Se_1 VZ ) DECAY 2000013 7.63008589E+00 # Se_5 # BR NDA ID1 ID2 5.12098189E-01 2 14 -1000024 # BR(Se_5 -> Fv_2 Cha_1 ) 2.30068301E-01 2 13 1000022 # BR(Se_5 -> Fe_2 Chi_1 ) 2.57793648E-01 2 13 1000023 # BR(Se_5 -> Fe_2 Chi_2 ) DECAY 2000015 7.63046173E+00 # Se_6 # BR NDA ID1 ID2 5.12132874E-01 2 12 -1000024 # BR(Se_6 -> Fv_1 Cha_1 ) 2.30056138E-01 2 11 1000022 # BR(Se_6 -> Fe_1 Chi_1 ) 2.57810987E-01 2 11 1000023 # BR(Se_6 -> Fe_1 Chi_2 ) DECAY 1000012 7.52264356E+00 # Sv_1 # BR NDA ID1 ID2 2.33366898E-01 2 16 1000022 # BR(Sv_1 -> Fv_3 Chi_1 ) 2.50311930E-01 2 16 1000023 # BR(Sv_1 -> Fv_3 Chi_2 ) 5.03684946E-01 2 1000024 15 # BR(Sv_1 -> Cha_1^* Fe_3 ) 1.26362266E-02 2 1000011 24 # BR(Sv_1 -> Se_1 VWm^* ) DECAY 1000014 7.61664186E+00 # Sv_2 # BR NDA ID1 ID2 2.32868239E-01 2 14 1000022 # BR(Sv_2 -> Fv_2 Chi_1 ) 2.54675770E-01 2 14 1000023 # BR(Sv_2 -> Fv_2 Chi_2 ) 5.12416954E-01 2 1000024 13 # BR(Sv_2 -> Cha_1^* Fe_2 ) DECAY 1000016 7.61701595E+00 # Sv_3 # BR NDA ID1 ID2 2.32865251E-01 2 12 1000022 # BR(Sv_3 -> Fv_1 Chi_1 ) 2.54689782E-01 2 12 1000023 # BR(Sv_3 -> Fv_1 Chi_2 ) 5.12444967E-01 2 1000024 11 # BR(Sv_3 -> Cha_1^* Fe_1 ) DECAY 25 4.07728819E-03 # hh_1 # BR NDA ID1 ID2 2.36476037E-03 2 22 22 # BR(hh_1 -> VP VP ) 7.93547951E-02 2 21 21 # BR(hh_1 -> VG VG ) 2.16063765E-02 2 23 23 # BR(hh_1 -> VZ VZ ) 2.02219216E-01 2 24 -24 # BR(hh_1 -> VWm^* VWm_virt ) 2.23603422E-04 2 -3 3 # BR(hh_1 -> Fd_2^* Fd_2 ) 5.98910386E-01 2 -5 5 # BR(hh_1 -> Fd_3^* Fd_3 ) 2.40670982E-04 2 -13 13 # BR(hh_1 -> Fe_2^* Fe_2 ) 6.94696370E-02 2 -15 15 # BR(hh_1 -> Fe_3^* Fe_3 ) 2.56098198E-02 2 -4 4 # BR(hh_1 -> Fu_2^* Fu_2 ) DECAY 35 4.85903043E+00 # hh_2 # BR NDA ID1 ID2 2.15584955E-03 2 1000024 -1000024 # BR(hh_2 -> Cha_1^* Cha_1 ) 5.54800925E-04 2 1000022 1000022 # BR(hh_2 -> Chi_1 Chi_1 ) 2.63517783E-03 2 1000022 1000023 # BR(hh_2 -> Chi_1 Chi_2 ) 1.05873280E-03 2 1000023 1000023 # BR(hh_2 -> Chi_2 Chi_2 ) 2.01062667E-04 2 -3 3 # BR(hh_2 -> Fd_2^* Fd_2 ) 5.55572912E-01 2 -5 5 # BR(hh_2 -> Fd_3^* Fd_3 ) 3.80961194E-04 2 -13 13 # BR(hh_2 -> Fe_2^* Fe_2 ) 1.07723964E-01 2 -15 15 # BR(hh_2 -> Fe_3^* Fe_3 ) 2.74248868E-01 2 -6 6 # BR(hh_2 -> Fu_3^* Fu_3 ) 3.51626384E-04 2 25 25 # BR(hh_2 -> hh_1 hh_1 ) 3.66574546E-02 2 -24 24 # BR(hh_2 -> VWm VWm^* ) 1.83625357E-02 2 23 23 # BR(hh_2 -> VZ VZ ) DECAY 36 4.72813859E+00 # Ah_2 # BR NDA ID1 ID2 1.83692567E-04 2 21 21 # BR(Ah_2 -> VG VG ) 1.78760026E-02 2 1000024 -1000024 # BR(Ah_2 -> Cha_1^* Cha_1 ) 8.88400792E-04 2 1000022 1000022 # BR(Ah_2 -> Chi_1 Chi_1 ) 6.39763515E-03 2 1000022 1000023 # BR(Ah_2 -> Chi_1 Chi_2 ) 8.76478352E-03 2 1000023 1000023 # BR(Ah_2 -> Chi_2 Chi_2 ) 2.06639609E-04 2 -3 3 # BR(Ah_2 -> Fd_2^* Fd_2 ) 5.70984344E-01 2 -5 5 # BR(Ah_2 -> Fd_3^* Fd_3 ) 3.91528018E-04 2 -13 13 # BR(Ah_2 -> Fe_2^* Fe_2 ) 1.10712123E-01 2 -15 15 # BR(Ah_2 -> Fe_3^* Fe_3 ) 2.83464509E-01 2 -6 6 # BR(Ah_2 -> Fu_3^* Fu_3 ) 1.23528082E-04 2 25 23 # BR(Ah_2 -> hh_1 VZ ) DECAY 37 4.23544359E+00 # Hpm_2 # BR NDA ID1 ID2 9.69342966E-03 2 1000022 1000024 # BR(Hpm_2^* -> Chi_1 Cha_1^* ) 2.04173202E-04 2 4 -3 # BR(Hpm_2^* -> Fu_2 Fd_2^* ) 9.71953327E-04 2 4 -5 # BR(Hpm_2^* -> Fu_2 Fd_3^* ) 4.74085894E-04 2 6 -3 # BR(Hpm_2^* -> Fu_3 Fd_2^* ) 8.62597229E-01 2 6 -5 # BR(Hpm_2^* -> Fu_3 Fd_3^* ) 4.37186409E-04 2 14 -13 # BR(Hpm_2^* -> Fv_2 Fe_2^* ) 1.23622917E-01 2 16 -15 # BR(Hpm_2^* -> Fv_3 Fe_3^* ) 1.22247726E-04 2 25 24 # BR(Hpm_2^* -> hh_1 VWm^* ) 1.84799135E-03 2 24 23 # BR(Hpm_2^* -> VWm^* VZ ) DECAY 1000021 2.72164685E+01 # Glu # BR NDA ID1 ID2 8.08402493E-03 2 1 -2000001 # BR(Glu -> Fd_1 Sd_4^* ) 8.08402493E-03 2 -1 2000001 # BR(Glu -> Fd_1^* Sd_4 ) 6.54669906E-05 2 1 -2000005 # BR(Glu -> Fd_1 Sd_6^* ) 6.54669906E-05 2 -1 2000005 # BR(Glu -> Fd_1^* Sd_6 ) 1.11082209E-04 2 3 -1000001 # BR(Glu -> Fd_2 Sd_1^* ) 1.11082209E-04 2 -3 1000001 # BR(Glu -> Fd_2^* Sd_1 ) 8.08511154E-03 2 3 -1000005 # BR(Glu -> Fd_2 Sd_3^* ) 8.08511154E-03 2 -3 1000005 # BR(Glu -> Fd_2^* Sd_3 ) 6.56989924E-05 2 3 -2000003 # BR(Glu -> Fd_2 Sd_5^* ) 6.56989924E-05 2 -3 2000003 # BR(Glu -> Fd_2^* Sd_5 ) 7.16480985E-02 2 5 -1000001 # BR(Glu -> Fd_3 Sd_1^* ) 7.16480985E-02 2 -5 1000001 # BR(Glu -> Fd_3^* Sd_1 ) 1.11467693E-02 2 5 -1000003 # BR(Glu -> Fd_3 Sd_2^* ) 1.11467693E-02 2 -5 1000003 # BR(Glu -> Fd_3^* Sd_2 ) 6.69395210E-03 2 2 -2000002 # BR(Glu -> Fu_1 Su_4^* ) 6.69395210E-03 2 -2 2000002 # BR(Glu -> Fu_1^* Su_4 ) 7.73626085E-05 2 2 -2000006 # BR(Glu -> Fu_1 Su_6^* ) 7.73626085E-05 2 -2 2000006 # BR(Glu -> Fu_1^* Su_6 ) 6.69499543E-03 2 4 -1000006 # BR(Glu -> Fu_2 Su_3^* ) 6.69499543E-03 2 -4 1000006 # BR(Glu -> Fu_2^* Su_3 ) 7.74208132E-05 2 4 -2000004 # BR(Glu -> Fu_2 Su_5^* ) 7.74208132E-05 2 -4 2000004 # BR(Glu -> Fu_2^* Su_5 ) 3.16748457E-01 2 6 -1000002 # BR(Glu -> Fu_3 Su_1^* ) 3.16748457E-01 2 -6 1000002 # BR(Glu -> Fu_3^* Su_1 ) 6.92299122E-02 2 6 -1000004 # BR(Glu -> Fu_3 Su_2^* ) 6.92299122E-02 2 -6 1000004 # BR(Glu -> Fu_3^* Su_2 ) # BR NDA ID1 ID2 ID3 2.52971277E-03 3 6 -6 1000035 # BR(Glu -> Fu_3 Fu_3^* Chi_4 ) DECAY 1000023 6.65344251E-03 # Chi_2 # BR NDA ID1 ID2 9.45856685E-01 2 1000022 25 # BR(Chi_2 -> Chi_1 hh_1 ) 4.29820508E-02 2 1000022 23 # BR(Chi_2 -> Chi_1 VZ ) # BR NDA ID1 ID2 ID3 1.55238045E-03 3 1000022 -11 11 # BR(Chi_2 -> Chi_1 Fe_1^* Fe_1 ) 1.55273438E-03 3 1000022 -13 13 # BR(Chi_2 -> Chi_1 Fe_2^* Fe_2 ) 1.65190582E-03 3 1000022 -15 15 # BR(Chi_2 -> Chi_1 Fe_3^* Fe_3 ) 1.63558677E-03 3 1000022 -6 6 # BR(Chi_2 -> Chi_1 Fu_3^* Fu_3 ) 1.51666662E-03 3 1000022 -12 12 # BR(Chi_2 -> Chi_1 Fv_1^* Fv_1 ) 1.51686314E-03 3 1000022 -14 14 # BR(Chi_2 -> Chi_1 Fv_2^* Fv_2 ) 1.57359668E-03 3 1000022 -16 16 # BR(Chi_2 -> Chi_1 Fv_3^* Fv_3 ) DECAY 1000025 1.35100024E+01 # Chi_3 # BR NDA ID1 ID2 2.89147770E-01 2 -1000024 24 # BR(Chi_3 -> Cha_1 VWm^* ) 2.89147770E-01 2 1000024 -24 # BR(Chi_3 -> Cha_1^* VWm ) 1.65970854E-02 2 1000022 25 # BR(Chi_3 -> Chi_1 hh_1 ) 1.20983583E-02 2 1000023 25 # BR(Chi_3 -> Chi_2 hh_1 ) 9.40862666E-02 2 1000022 23 # BR(Chi_3 -> Chi_1 VZ ) 2.79167422E-01 2 1000023 23 # BR(Chi_3 -> Chi_2 VZ ) 1.30855854E-03 2 15 -1000011 # BR(Chi_3 -> Fe_3 Se_1^* ) 1.30855854E-03 2 -15 1000011 # BR(Chi_3 -> Fe_3^* Se_1 ) 5.07836510E-04 2 15 -2000011 # BR(Chi_3 -> Fe_3 Se_4^* ) 5.07836510E-04 2 -15 2000011 # BR(Chi_3 -> Fe_3^* Se_4 ) # BR NDA ID1 ID2 ID3 2.74351664E-03 3 1000022 -6 6 # BR(Chi_3 -> Chi_1 Fu_3^* Fu_3 ) 3.16484100E-03 3 1000023 -6 6 # BR(Chi_3 -> Chi_2 Fu_3^* Fu_3 ) 5.04966468E-03 3 -1000024 -5 6 # BR(Chi_3 -> Cha_1 Fd_3^* Fu_3 ) 5.04966468E-03 3 1000024 5 -6 # BR(Chi_3 -> Cha_1^* Fd_3 Fu_3^* ) DECAY 1000035 1.35175436E+01 # Chi_4 # BR NDA ID1 ID2 2.82339245E-01 2 -1000024 24 # BR(Chi_4 -> Cha_1 VWm^* ) 2.82339245E-01 2 1000024 -24 # BR(Chi_4 -> Cha_1^* VWm ) 9.42107053E-02 2 1000022 25 # BR(Chi_4 -> Chi_1 hh_1 ) 2.93992613E-01 2 1000023 25 # BR(Chi_4 -> Chi_2 hh_1 ) 1.63102795E-02 2 1000022 23 # BR(Chi_4 -> Chi_1 VZ ) 1.24150010E-02 2 1000023 23 # BR(Chi_4 -> Chi_2 VZ ) 6.46392545E-05 2 11 -2000015 # BR(Chi_4 -> Fe_1 Se_6^* ) 6.46392545E-05 2 -11 2000015 # BR(Chi_4 -> Fe_1^* Se_6 ) 6.64314735E-05 2 13 -2000013 # BR(Chi_4 -> Fe_2 Se_5^* ) 6.64314735E-05 2 -13 2000013 # BR(Chi_4 -> Fe_2^* Se_5 ) 1.28529289E-03 2 15 -1000011 # BR(Chi_4 -> Fe_3 Se_1^* ) 1.28529289E-03 2 -15 1000011 # BR(Chi_4 -> Fe_3^* Se_1 ) 6.04590371E-04 2 15 -2000011 # BR(Chi_4 -> Fe_3 Se_4^* ) 6.04590371E-04 2 -15 2000011 # BR(Chi_4 -> Fe_3^* Se_4 ) 1.46030127E-04 2 12 -1000016 # BR(Chi_4 -> Fv_1 Sv_3^* ) 1.46030127E-04 2 -12 1000016 # BR(Chi_4 -> Fv_1^* Sv_3 ) 1.46068471E-04 2 14 -1000014 # BR(Chi_4 -> Fv_2 Sv_2^* ) 1.46068471E-04 2 -14 1000014 # BR(Chi_4 -> Fv_2^* Sv_2 ) 1.57031998E-04 2 16 -1000012 # BR(Chi_4 -> Fv_3 Sv_1^* ) 1.57031998E-04 2 -16 1000012 # BR(Chi_4 -> Fv_3^* Sv_1 ) # BR NDA ID1 ID2 ID3 1.26320236E-03 3 1000022 -6 6 # BR(Chi_4 -> Chi_1 Fu_3^* Fu_3 ) 1.77150820E-03 3 1000023 -6 6 # BR(Chi_4 -> Chi_2 Fu_3^* Fu_3 ) 5.11495995E-03 3 -1000024 -5 6 # BR(Chi_4 -> Cha_1 Fd_3^* Fu_3 ) 5.11495995E-03 3 1000024 5 -6 # BR(Chi_4 -> Cha_1^* Fd_3 Fu_3^* ) DECAY 1000024 6.71347787E-03 # Cha_1 # BR NDA ID1 ID2 9.81637486E-01 2 1000022 24 # BR(Cha_1^* -> Chi_1 VWm^* ) # BR NDA ID1 ID2 ID3 9.07521480E-03 3 1000022 6 -5 # BR(Cha_1^* -> Chi_1 Fu_3 Fd_3^* ) 2.99315970E-03 3 1000022 12 -11 # BR(Cha_1^* -> Chi_1 Fv_1 Fe_1^* ) 2.99380460E-03 3 1000022 14 -13 # BR(Cha_1^* -> Chi_1 Fv_2 Fe_2^* ) 3.17723143E-03 3 1000022 16 -15 # BR(Cha_1^* -> Chi_1 Fv_3 Fe_3^* ) DECAY 1000037 1.38616341E+01 # Cha_2 # BR NDA ID1 ID2 2.99647952E-01 2 1000024 25 # BR(Cha_2^* -> Cha_1^* hh_1 ) 2.91060172E-01 2 1000024 23 # BR(Cha_2^* -> Cha_1^* VZ ) 1.02748690E-01 2 1000022 24 # BR(Cha_2^* -> Chi_1 VWm^* ) 2.88810523E-01 2 1000023 24 # BR(Cha_2^* -> Chi_2 VWm^* ) 1.27664572E-04 2 -11 1000016 # BR(Cha_2^* -> Fe_1^* Sv_3 ) 1.30992928E-04 2 -13 1000014 # BR(Cha_2^* -> Fe_2^* Sv_2 ) 1.13895710E-03 2 -15 1000012 # BR(Cha_2^* -> Fe_3^* Sv_1 ) 2.89852591E-04 2 12 -2000015 # BR(Cha_2^* -> Fv_1 Se_6^* ) 2.90150028E-04 2 14 -2000013 # BR(Cha_2^* -> Fv_2 Se_5^* ) 2.41748173E-03 2 16 -1000011 # BR(Cha_2^* -> Fv_3 Se_1^* ) 3.77795177E-04 2 16 -2000011 # BR(Cha_2^* -> Fv_3 Se_4^* ) # BR NDA ID1 ID2 ID3 4.93579187E-03 3 1000024 6 -6 # BR(Cha_2^* -> Cha_1^* Fu_3 Fu_3^* ) 2.98052881E-03 3 1000022 6 -5 # BR(Cha_2^* -> Chi_1 Fu_3 Fd_3^* ) 5.00898775E-03 3 1000023 6 -5 # BR(Cha_2^* -> Chi_2 Fu_3 Fd_3^* ) DECAY 6 1.55900279E+00 # Fu_3 # BR NDA ID1 ID2 1.67597681E-03 2 3 24 # BR(Fu_3 -> Fd_2 VWm^* ) 9.98288584E-01 2 5 24 # BR(Fu_3 -> Fd_3 VWm^* )