Problem with param_card generated by SPheno
I am currently using MadGraph5_aMC@NLO ver 3.1.0. I implemented the model in SARAH, generated a UFO from the same tool, and generated a DM relic density compatible SPheno output, which I then try to use as a mg5 param_card. However, when I try to launch the processes, the following problem appears on screen:
ERROR: Current param_card is not valid. We are going to use the default one.
ERROR: problem detected: higgscouplingsb
The generation commands go as follows
import model /home/pheno/
define p d1 d1bar d2 d2bar u1 u1bar u2 u2bar g
define l e1 e2 e3
define l~ e1bar e2bar e3bar
define v nu1 nu2 nu3
generate p p > etar etp
output simtest
launch simtest
and the param_card in SPheno format goes as follows
# SUSY Les Houches Accord 2 - Scoto_SLNV_11.10 Spectrum + Decays + Flavour Observables
# SPheno module generated by SARAH
# -------
# SPheno v4.0.5
# W. Porod, Comput. Phys. Commun. 153 (2003) 275-315, hep-ph/0301101
# W. Porod, F.Staub, Comput.
# SARAH: 4.15.1
# 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 <email address hidden> and <email address hidden>, or consult the forum/wiki
# -------
# Created: 25.01.2024, 14:52
Block SPINFO # Program information
1 SPhenoSARAH # spectrum calculator
2 v4.0.5 # version number of SPheno
9 4.15.1 # version number of SARAH
Block MODSEL # Input parameters
1 1 # GUT scale input
2 1 # Boundary conditions
5 2 # switching on CP violation
6 1 # switching on flavour violation
Block MINPAR # Input parameters
1 2.17008644E+00 # lambda1Input
2 3.48535222E-06 # lam4EtaInput
3 1.22495457E-04 # lamHEta3Input
4 8.06303311E-05 # lambda4HEtaInput
5 1.22495457E-04 # lambda5HEtaInput
6 1.01372970E+01 # lam4SigInput
7 -4.13841642E+00 # lamHSigInput
8 1.61205551E-02 # lamEtaSigInput
9 8.57038911E+06 # mEta2Input
11 1.15100445E+02 # vSiInput
Block gaugeGUT Q= -1.00000000E+00 # (GUT scale)
1 0.00000000E+00 # g1(Q)
2 0.00000000E+00 # g2(Q)
3 0.00000000E+00 # g3(Q)
Block SMINPUTS # SM parameters
1 1.27932000E+02 # alpha_em^
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 1.72890000E+02 # m_t(pole)
7 1.77669000E+00 # m_tau(pole)
Block GAUGE Q= 1.60000000E+02 # (Renormalization Scale)
1 3.55690247E-01 # g1
2 6.62798598E-01 # g2
3 1.22132231E+00 # g3
Block SM Q= 1.60000000E+02 # (Renormalization Scale)
2 2.17008644E+00 # Lam
3 -3.83671743E+04 # mH2
Block HDM Q= 1.60000000E+02 # (Renormalization Scale)
2 3.48535222E-06 # L4Et
6 1.01372970E+01 # L4S
4 8.06303311E-05 # LHE32
3 1.22495457E-04 # LHE31
5 1.22495457E-04 # LHE33
7 -4.13841642E+00 # LHS
8 1.61205551E-02 # LES
9 8.57038911E+06 # mEt2
10 5.82948308E+04 # mS2
11 1.15100445E+02 # vSi
11 1.15100445E+02 # vSi
Block HMIX Q= 1.60000000E+02 # (Renormalization Scale)
3 2.46220569E+02 # vvSM
Block Yu Q= 1.60000000E+02 # (Renormalization Scale)
1 1 1.39897827E-05 # Real(Yu(1,1),dp)
1 2 3.23582995E-06 # Real(Yu(1,2),dp)
1 3 1.74580412E-08 # Real(Yu(1,3),dp)
2 1 -1.64277243E-03 # Real(Yu(2,1),dp)
2 2 7.10073918E-03 # Real(Yu(2,2),dp)
2 3 3.00419293E-04 # Real(Yu(2,3),dp)
3 1 8.04097128E-03 # Real(Yu(3,1),dp)
3 2 -4.01173479E-02 # Real(Yu(3,2),dp)
3 3 9.92177469E-01 # Real(Yu(3,3),dp)
Block IMYu Q= 1.60000000E+02 # (Renormalization Scale)
1 1 0.00000000E+00 # Aimag(Yu(1,1))
1 2 0.00000000E+00 # Aimag(Yu(1,2))
1 3 -4.59772839E-08 # Aimag(Yu(1,3))
2 1 -9.37186111E-07 # Aimag(Yu(2,1))
2 2 -2.16770693E-07 # Aimag(Yu(2,2))
2 3 0.00000000E+00 # Aimag(Yu(2,3))
3 1 -3.09519051E-03 # Aimag(Yu(3,1))
3 2 -7.15916063E-04 # Aimag(Yu(3,2))
3 3 0.00000000E+00 # Aimag(Yu(3,3))
Block COUPLINGSYN Q= 1.60000000E+02 # (Renormalization Scale)
1 1 -1.52567830E-02 # Real(Yn(1,1),dp)
1 2 -1.45974199E-03 # Real(Yn(1,2),dp)
1 3 -1.71520763E-02 # Real(Yn(1,3),dp)
2 1 -9.93290346E-03 # Real(Yn(2,1),dp)
2 2 -1.66258910E-03 # Real(Yn(2,2),dp)
2 3 1.57199604E-03 # Real(Yn(2,3),dp)
3 1 1.26632282E-03 # Real(Yn(3,1),dp)
3 2 1.04304273E-04 # Real(Yn(3,2),dp)
3 3 1.72510458E-03 # Real(Yn(3,3),dp)
Block IMCOUPLINGSYN Q= 1.60000000E+02 # (Renormalization Scale)
1 1 5.66993992E-04 # Aimag(Yn(1,1))
1 2 -1.72658979E-02 # Aimag(Yn(1,2))
1 3 1.19490379E-02 # Aimag(Yn(1,3))
2 1 -5.19652724E-05 # Aimag(Yn(2,1))
2 2 -1.09513507E-03 # Aimag(Yn(2,2))
2 3 -1.09513507E-03 # Aimag(Yn(2,3))
3 1 -5.70265623E-05 # Aimag(Yn(3,1))
3 2 1.33787443E-03 # Aimag(Yn(3,2))
3 3 -1.20179853E-03 # Aimag(Yn(3,3))
Block Yd Q= 1.60000000E+02 # (Renormalization Scale)
1 1 2.87184285E-05 # Real(Yd(1,1),dp)
1 2 0.00000000E+00 # Real(Yd(1,2),dp)
1 3 0.00000000E+00 # Real(Yd(1,3),dp)
2 1 0.00000000E+00 # Real(Yd(2,1),dp)
2 2 5.45650142E-04 # Real(Yd(2,2),dp)
2 3 0.00000000E+00 # Real(Yd(2,3),dp)
3 1 0.00000000E+00 # Real(Yd(3,1),dp)
3 2 0.00000000E+00 # Real(Yd(3,2),dp)
3 3 2.40086062E-02 # Real(Yd(3,3),dp)
Block Ye Q= 1.60000000E+02 # (Renormalization Scale)
1 1 2.93501725E-06 # 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 6.06868478E-04 # 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 1.02047490E-02 # Real(Ye(3,3),dp)
Block KAPPA Q= 1.60000000E+02 # (Renormalization Scale)
1 1 2.01040404E-02 # Real(Kap(1,1),dp)
1 2 0.00000000E+00 # Real(Kap(1,2),dp)
1 3 0.00000000E+00 # Real(Kap(1,3),dp)
2 1 0.00000000E+00 # Real(Kap(2,1),dp)
2 2 3.02411318E-01 # Real(Kap(2,2),dp)
2 3 0.00000000E+00 # Real(Kap(2,3),dp)
3 1 0.00000000E+00 # Real(Kap(3,1),dp)
3 2 0.00000000E+00 # Real(Kap(3,2),dp)
3 3 2.12262914E-02 # Real(Kap(3,3),dp)
Block MASS # Mass spectrum
# PDG code mass particle
25 1.25056709E+02 # hh_1
1111 5.00221374E+02 # hh_2
200002 1.00000000E-05 # Ah_2
1001 2.92754262E+03 # etaR
1002 2.92754135E+03 # etaI
1003 2.92754156E+03 # etap
23 9.11887000E+01 # VZ
24 8.03497269E+01 # VWp
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 1.72890000E+02 # Fu_3
11 5.10998930E-04 # Fe_1
13 1.05658372E-01 # Fe_2
15 1.77669000E+00 # Fe_3
12 0.00000000E+00 # Fv_1
14 0.00000000E+00 # Fv_2
16 0.00000000E+00 # Fv_3
3001 -3.27246754E+00 # FX0_1
3002 -3.45514375E+00 # FX0_2
3003 -4.92254891E+01 # FX0_3
Block UDLMIX Q= 1.60000000E+02 # ()
1 1 -1.00000000E+00 # Real(ZDL(1,1),dp)
1 2 0.00000000E+00 # Real(ZDL(1,2),dp)
1 3 0.00000000E+00 # Real(ZDL(1,3),dp)
2 1 0.00000000E+00 # Real(ZDL(2,1),dp)
2 2 -1.00000000E+00 # Real(ZDL(2,2),dp)
2 3 0.00000000E+00 # Real(ZDL(2,3),dp)
3 1 0.00000000E+00 # Real(ZDL(3,1),dp)
3 2 0.00000000E+00 # Real(ZDL(3,2),dp)
3 3 -1.00000000E+00 # Real(ZDL(3,3),dp)
Block UDRMIX Q= 1.60000000E+02 # ()
1 1 1.00000000E+00 # Real(ZDR(1,1),dp)
1 2 0.00000000E+00 # Real(ZDR(1,2),dp)
1 3 0.00000000E+00 # Real(ZDR(1,3),dp)
2 1 0.00000000E+00 # Real(ZDR(2,1),dp)
2 2 1.00000000E+00 # Real(ZDR(2,2),dp)
2 3 0.00000000E+00 # Real(ZDR(2,3),dp)
3 1 0.00000000E+00 # Real(ZDR(3,1),dp)
3 2 0.00000000E+00 # Real(ZDR(3,2),dp)
3 3 1.00000000E+00 # Real(ZDR(3,3),dp)
Block UULMIX Q= 1.60000000E+02 # ()
1 1 9.74272160E-01 # Real(ZUL(1,1),dp)
1 2 2.25348678E-01 # Real(ZUL(1,2),dp)
1 3 1.21580755E-03 # Real(ZUL(1,3),dp)
2 1 -2.25207587E-01 # Real(ZUL(2,1),dp)
2 2 9.73439965E-01 # Real(ZUL(2,2),dp)
2 3 4.11844653E-02 # Real(ZUL(2,3),dp)
3 1 8.09744431E-03 # Real(ZUL(3,1),dp)
3 2 -4.03990984E-02 # Real(ZUL(3,2),dp)
3 3 9.99145690E-01 # Real(ZUL(3,3),dp)
Block IMUULMIX Q= 1.60000000E+02 # ()
1 1 -3.33066907E-16 # Aimag(ZUL(1,1))
1 2 1.12410081E-15 # Aimag(ZUL(1,2))
1 3 -3.20193592E-03 # Aimag(ZUL(1,3))
2 1 -1.28478795E-04 # Aimag(ZUL(2,1))
2 2 -2.97170830E-05 # Aimag(ZUL(2,2))
2 3 -7.78735881E-18 # Aimag(ZUL(2,3))
3 1 -3.11692852E-03 # Aimag(ZUL(3,1))
3 2 -7.20944056E-04 # Aimag(ZUL(3,2))
3 3 5.01255562E-21 # Aimag(ZUL(3,3))
Block UURMIX Q= 1.60000000E+02 # ()
1 1 1.00000000E+00 # Real(ZUR(1,1),dp)
1 2 -6.15296087E-20 # Real(ZUR(1,2),dp)
1 3 0.00000000E+00 # Real(ZUR(1,3),dp)
2 1 6.77565467E-20 # Real(ZUR(2,1),dp)
2 2 1.00000000E+00 # Real(ZUR(2,2),dp)
2 3 0.00000000E+00 # Real(ZUR(2,3),dp)
3 1 0.00000000E+00 # Real(ZUR(3,1),dp)
3 2 0.00000000E+00 # Real(ZUR(3,2),dp)
3 3 1.00000000E+00 # Real(ZUR(3,3),dp)
Block IMUURMIX Q= 1.60000000E+02 # ()
1 1 0.00000000E+00 # Aimag(ZUR(1,1))
1 2 4.37183184E-20 # Aimag(ZUR(1,2))
1 3 0.00000000E+00 # Aimag(ZUR(1,3))
2 1 -2.60546631E-20 # 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 UELMIX Q= 1.60000000E+02 # ()
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= 1.60000000E+02 # ()
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 UVMIX Q= 1.60000000E+02 # ()
1 1 0.00000000E+00 # Real(UV(1,1),dp)
1 2 0.00000000E+00 # Real(UV(1,2),dp)
1 3 0.00000000E+00 # Real(UV(1,3),dp)
2 1 0.00000000E+00 # Real(UV(2,1),dp)
2 2 0.00000000E+00 # Real(UV(2,2),dp)
2 3 0.00000000E+00 # Real(UV(2,3),dp)
3 1 0.00000000E+00 # Real(UV(3,1),dp)
3 2 0.00000000E+00 # Real(UV(3,2),dp)
3 3 0.00000000E+00 # Real(UV(3,3),dp)
Block ZA0 Q= 1.60000000E+02 # ()
1 1 1.00000000E+00 # ZA(1,1)
1 2 0.00000000E+00 # ZA(1,2)
2 1 0.00000000E+00 # ZA(2,1)
2 2 1.00000000E+00 # ZA(2,2)
Block ZH0 Q= 1.60000000E+02 # ()
1 1 7.11223658E-01 # ZH(1,1)
1 2 7.02965794E-01 # ZH(1,2)
2 1 -7.02965794E-01 # ZH(2,1)
2 2 7.11223658E-01 # ZH(2,2)
Block ZX Q= 1.60000000E+02 # ()
1 1 1.00000000E+00 # Real(ZX(1,1),dp)
1 2 -0.00000000E+00 # Real(ZX(1,2),dp)
1 3 -0.00000000E+00 # Real(ZX(1,3),dp)
2 1 -0.00000000E+00 # Real(ZX(2,1),dp)
2 2 -0.00000000E+00 # Real(ZX(2,2),dp)
2 3 1.00000000E+00 # Real(ZX(2,3),dp)
3 1 -0.00000000E+00 # Real(ZX(3,1),dp)
3 2 1.00000000E+00 # Real(ZX(3,2),dp)
3 3 -0.00000000E+00 # Real(ZX(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 -1.00000000E+00 # GUT scale
33 1.60000000E+02 # 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
Block HiggsLHC7 # Higgs production cross section at LHC7 [pb] (rescaled SM values from HXSWG)
1 25 1.11544889E+01 # Gluon fusion
2 25 8.59497448E-01 # Vector boson fusion
3 25 3.84308277E-01 # W-H production
4 25 2.24721926E-01 # Z-H production
5 25 6.11690933E-02 # t-t-H production
1 1111 6.13442032E-01 # Gluon fusion
2 1111 6.71166271E-02 # Vector boson fusion
Block HiggsLHC8 # Higgs production cross section at LHC8 [pb] (rescaled SM values from HXSWG)
1 25 1.41982619E+01 # Gluon fusion
2 25 1.10824857E+00 # Vector boson fusion
3 25 4.92749139E-01 # W-H production
4 25 2.80675286E-01 # Z-H production
5 25 9.25905247E-02 # t-t-H production
1 1111 9.04538590E-01 # Gluon fusion
2 1111 1.11935341E-01 # Vector boson fusion
Block HiggsLHC13 # Higgs production cross section at LHC13 [pb] (rescaled SM values from SusHI 1.5.0)
1 25 3.31739264E+01 # Gluon fusion
1 1111 3.09937188E+00 # Gluon fusion
Block HiggsLHC14 # Higgs production cross section at LHC14 [pb] (rescaled SM values from SusHI 1.5.0)
1 25 3.73573355E+01 # Gluon fusion
1 1111 3.68084125E+00 # Gluon fusion
Block HiggsFCC100 # Higgs production cross section at FCC-pp [pb] (rescaled SM values from SusHI 1.5.0)
1 25 5.50270242E+02 # Gluon fusion
1 1111 1.42585524E+02 # Gluon fusion
Block HiggsCouplingsF
7.11223658E-01 0.00000000E+00 3 25 5 5 # h_1 b b coupling
7.11223658E-01 0.00000000E+00 3 25 3 3 # h_1 s s coupling
7.11223658E-01 4.84917348E-21 3 25 6 6 # h_1 t t coupling
7.11223658E-01 2.93728316E-21 3 25 4 4 # h_1 c c coupling
7.11223658E-01 0.00000000E+00 3 25 15 15 # h_1 tau tau coupling
7.11223658E-01 0.00000000E+00 3 25 13 13 # h_1 mu mu coupling
7.02965794E-01 0.00000000E+00 3 1111 5 5 # h_2 b b coupling
7.02965794E-01 0.00000000E+00 3 1111 3 3 # h_2 s s coupling
7.02965794E-01 4.79358240E-21 3 1111 6 6 # h_2 t t coupling
7.02965794E-01 4.80075198E-17 3 1111 4 4 # h_2 c c coupling
7.02965794E-01 0.00000000E+00 3 1111 15 15 # h_2 tau tau coupling
7.02965794E-01 0.00000000E+00 3 1111 13 13 # h_2 mu mu coupling
0.00000000E+00 0.00000000E+00 3 200002 5 5 # A_2 b b coupling
0.00000000E+00 0.00000000E+00 3 200002 3 3 # A_2 s s coupling
0.00000000E+00 0.00000000E+00 3 200002 6 6 # A_2 t t coupling
0.00000000E+00 0.00000000E+00 3 200002 4 4 # A_2 c c coupling
0.00000000E+00 0.00000000E+00 3 200002 15 15 # A_2 tau tau coupling
0.00000000E+00 0.00000000E+00 3 200002 13 13 # A_2 mu mu coupling
Block HiggsCouplingsB
7.11223658E-01 3 25 24 24 # h_1 W W coupling
7.11223658E-01 3 25 23 23 # h_1 Z Z coupling
0.00000000E+00 3 25 23 22 # h_1 Z gamma coupling
7.41336212E-01 3 25 22 22 # h_1 gamma gamma coupling
7.27425529E-01 3 25 21 21 # h_1 g g coupling
0.00000000E+00 4 25 21 21 23 # h_1 g g Z coupling
7.02965794E-01 3 1111 24 24 # h_2 W W coupling
7.02965794E-01 3 1111 23 23 # h_2 Z Z coupling
0.00000000E+00 3 1111 23 22 # h_2 Z gamma coupling
7.85212483E-01 3 1111 22 22 # h_2 gamma gamma coupling
7.03942989E-01 3 1111 21 21 # h_2 g g coupling
0.00000000E+00 4 1111 21 21 23 # h_2 g g Z coupling
0.00000000E+00 3 200002 24 24 # A_2 W W coupling
0.00000000E+00 3 200002 23 23 # A_2 Z Z coupling
0.00000000E+00 3 200002 23 22 # A_2 Z gamma coupling
0.00000000E+00 3 200002 22 22 # A_2 gamma gamma coupling
0.00000000E+00 3 200002 21 21 # A_2 g g coupling
0.00000000E+00 4 200002 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 1111 23 # h_1 h_2 Z coupling
0.00000000E+00 3 25 200002 23 # h_1 A_2 Z coupling
0.00000000E+00 3 1111 25 23 # h_2 h_1 Z coupling
0.00000000E+00 3 1111 1111 23 # h_2 h_2 Z coupling
0.00000000E+00 3 1111 200002 23 # h_2 A_2 Z coupling
0.00000000E+00 3 200002 200002 23 # A_2 A_2 Z coupling
Block EFFHIGGSCOUPLINGS # values of loop-induced couplings
25 22 22 0.23257647E-04 # H-Photon-Photon
25 21 21 0.47047269E-04 # H-Gluon-Gluon
25 22 23 0.00000000E+00 # H-Photon-Z (not yet calculated by SPheno)
1111 22 22 0.44715082E-05 # H-Photon-Photon
1111 21 21 0.63603905E-04 # H-Gluon-Gluon
1111 22 23 0.00000000E+00 # H-Photon-Z (not yet calculated by SPheno)
200002 22 22 0.00000000E+00 # A-Photon-Photon
200002 21 21 0.00000000E+00 # A-Gluon-Gluon
200002 22 23 0.00000000E+00 # A-Photon-Z (not yet calculated by SPheno)
Block SPhenoLowEnergy # low energy observables
1 -7.05315115E-02 # T-parameter (1-loop BSM)
2 4.65095641E-02 # S-parameter (1-loop BSM)
3 -1.63653701E-03 # U-parameter (1-loop BSM)
20 -3.11955765E-20 # (g-2)_e
21 1.15999415E-14 # (g-2)_mu
22 5.36090913E-10 # (g-2)_tau
23 0.00000000E+00 # EDM(e)
24 0.00000000E+00 # EDM(mu)
25 0.00000000E+00 # EDM(tau)
39 -8.48290163E-04 # delta(rho)
Block FlavorKitQFV # quark flavor violating observables
200 3.15000000E-04 # BR(B->X_s gamma)
201 1.00000000E+00 # BR(B->X_s gamma)/BR(B->X_s gamma)_SM
300 5.88828150E-04 # BR(D->mu nu)
301 9.98950690E-01 # BR(D->mu nu)/BR(D->mu nu)_SM
400 5.57268835E-03 # BR(Ds->mu nu)
401 9.98836361E-01 # BR(Ds->mu nu)/BR(Ds->mu nu)_SM
402 5.44623024E-02 # BR(Ds->tau nu)
403 9.98836361E-01 # BR(Ds->tau nu)/BR(Ds->tau nu)_SM
500 5.05883816E-07 # BR(B->mu nu)
501 9.91645649E-01 # BR(B->mu nu)/BR(B->mu nu)_SM
502 1.12565752E-04 # BR(B->tau nu)
503 9.91645649E-01 # BR(B->tau nu)/BR(B->tau nu)_SM
600 6.32329548E-01 # BR(K->mu nu)
601 9.99926792E-01 # BR(K->mu nu)/BR(K->mu nu)_SM
602 2.47647734E-05 # R_K = BR(K->e nu)/(K->mu nu)
603 2.47611475E-05 # R_K^SM = BR(K->e nu)_SM/(K->mu nu)_SM
1900 1.88065296E+01 # Delta(M_Bs)
1901 1.00056347E+00 # Delta(M_
1902 4.20496202E-01 # Delta(M_Bd)
1903 1.00090528E+00 # Delta(M_
4000 2.23534228E-15 # BR(B^0_d->e e)
4001 1.00000353E+00 # BR(B^0_d->e e)/BR(B^0_d->e e)_SM
4002 6.94080267E-14 # BR(B^0_s->e e)
4003 1.00000346E+00 # BR(B^0_s->e e)/BR(B^0_s->e e)_SM
4004 9.54913066E-11 # BR(B^0_d->mu mu)
4005 1.00000353E+00 # BR(B^0_d->mu mu)/BR(B^0_d->mu mu)_SM
4006 2.96510946E-09 # BR(B^0_s->mu mu)
4007 1.00000345E+00 # BR(B^0_s->mu mu)/BR(B^0_s->mu mu)_SM
4008 1.99874100E-08 # BR(B^0_d->tau tau)
4009 1.00000193E+00 # BR(B^0_d->tau tau)/BR(B^0_d->tau tau)_SM
4010 6.28842109E-07 # BR(B^0_s->tau tau)
4011 1.00000194E+00 # BR(B^0_s->tau tau)/BR(B^0_s->tau tau)_SM
5000 1.64141441E-06 # BR(B-> s e e)
5001 9.91617429E-01 # BR(B-> s e e)/BR(B-> s e e)_SM
5002 1.59101657E-06 # BR(B-> s mu mu)
5003 9.91417300E-01 # BR(B-> s mu mu)/BR(B-> s mu mu)_SM
6000 1.10905580E-07 # BR(B -> K mu mu)
6001 9.99149366E-01 # BR(B -> K mu mu)/BR(B -> K mu mu)_SM
6002 1.10905580E-07 # BR(B -> K mu mu)
6003 9.99149366E-01 # BR(B -> K mu mu)/BR(B -> K mu mu)_SM
7000 3.68583182E-05 # BR(B->s nu nu)
7001 1.00000000E+00 # BR(B->s nu nu)/BR(B->s nu nu)_SM
7002 1.70661041E-06 # BR(B->D nu nu)
7003 1.00000000E+00 # BR(B->D nu nu)/BR(B->D nu nu)_SM
8000 1.72208179E-10 # BR(K^+ -> pi^+ nu nu)
8001 1.00000000E+00 # BR(K^+ -> pi^+ nu nu)/BR(K^+ -> pi^+ nu nu)_SM
8002 2.69406656E-11 # BR(K_L -> pi^0 nu nu)
8003 1.00000000E+00 # 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 1.94634806E-15 # Delta(M_K)
9102 9.99993400E-01 # Delta(M_
9103 1.83590241E-03 # epsilon_K
9104 9.99996939E-01 # epsilon_
Block FlavorKitLFV # lepton flavor violating observables
701 5.49036334E-18 # BR(mu->e gamma)
702 4.04035650E-19 # BR(tau->e gamma)
703 5.73411247E-21 # BR(tau->mu gamma)
800 4.77369336E-20 # CR(mu-e, Al)
801 8.59185595E-20 # CR(mu-e, Ti)
802 1.16287007E-19 # CR(mu-e, Sr)
803 1.30807136E-19 # CR(mu-e, Sb)
804 7.04638342E-20 # CR(mu-e, Au)
805 6.62804307E-20 # CR(mu-e, Pb)
901 4.41059552E-20 # BR(mu->3e)
902 5.27119766E-21 # BR(tau->3e)
903 2.06471966E-23 # BR(tau->3mu)
904 1.22770911E-21 # BR(tau- -> e- mu+ mu-)
905 7.15333400E-23 # BR(tau- -> mu- e+ e-)
906 2.13543953E-29 # BR(tau- -> e+ mu- mu-)
907 1.50966678E-27 # BR(tau- -> mu+ e- e-)
1001 4.69046469E-23 # BR(Z->e mu)
1002 1.94093245E-23 # BR(Z->e tau)
1003 2.74466418E-25 # BR(Z->mu tau)
1101 3.70188697E-44 # BR(h->e mu)
1102 5.45409588E-40 # BR(h->e tau)
1103 3.26075664E-37 # BR(h->mu tau)
2001 3.33848510E-46 # BR(tau->e pi)
2002 4.94647938E-47 # BR(tau->e eta)
2003 5.45579622E-47 # BR(tau->e eta')
2004 2.00014178E-48 # BR(tau->mu pi)
2005 2.95526281E-49 # BR(tau->mu eta)
2006 3.22880377E-49 # BR(tau->mu eta')
Block FWCOEF Q= 1.60000000E+02 # Wilson coefficients at scale Q
0305 4422 00 0 -0.16226712E-08 # coeffC7sm
0305 4422 00 2 -0.16226712E-08 # coeffC7
0305 4322 00 2 -0.36837366E-10 # coeffC7p
0305 4422 00 1 0.00000000E+00 # coeffC7NP
0305 4322 00 1 -0.36837366E-10 # coeffC7pNP
0305 6421 00 0 -0.84323965E-09 # coeffC8sm
0305 6421 00 2 -0.84323965E-09 # coeffC8
0305 6321 00 2 -0.19125007E-10 # coeffC8p
0305 6421 00 1 0.00000000E+00 # coeffC8NP
0305 6321 00 1 -0.19125007E-10 # coeffC8pNP
03051111 4133 00 0 0.10010236E-08 # coeffC9eeSM
03051111 4133 00 2 0.10010236E-08 # coeffC9ee
03051111 4233 00 2 -0.21324099E-14 # coeffC9Pee
03051111 4133 00 1 0.00000000E+00 # coeffC9eeNP
03051111 4233 00 1 -0.21324099E-14 # coeffC9PeeNP
03051111 4137 00 0 -0.37443070E-08 # coeffC10eeSM
03051111 4137 00 2 -0.37443070E-08 # coeffC10ee
03051111 4237 00 2 -0.20191587E-13 # coeffC10Pee
03051111 4137 00 1 0.00000000E+00 # coeffC10eeNP
03051111 4237 00 1 0.20191587E-13 # coeffC10PeeNP
03051313 4133 00 0 0.10010231E-08 # coeffC9mumuSM
03051313 4133 00 2 0.10010231E-08 # coeffC9mumu
03051313 4233 00 2 -0.21323930E-14 # coeffC9Pmumu
03051313 4133 00 1 0.00000000E+00 # coeffC9mumuNP
03051313 4233 00 1 -0.21323930E-14 # coeffC9PmumuNP
03051313 4137 00 0 -0.37443075E-08 # coeffC10mumuSM
03051313 4137 00 2 -0.37443075E-08 # coeffC10mumu
03051313 4237 00 2 -0.20191604E-13 # coeffC10Pmumu
03051313 4137 00 1 0.00000000E+00 # coeffC10mumuNP
03051313 4237 00 1 -0.20191604E-13 # coeffC10PmumuNP
03051212 4141 00 0 -0.11551210E-07 # coeffCLnu1nu1SM
03051212 4141 00 2 -0.11551210E-07 # coeffCLnu1nu1
03051212 4241 00 2 0.40383175E-13 # coeffCLPnu1nu1
03051212 4141 00 1 0.00000000E+00 # coeffCLnu1nu1NP
03051212 4241 00 1 0.40383175E-13 # coeffCLPnu1nu1NP
03051414 4141 00 0 -0.11551116E-07 # coeffCLnu2nu2SM
03051414 4141 00 2 -0.11551116E-07 # coeffCLnu2nu2
03051414 4241 00 2 0.40383141E-13 # coeffCLPnu2nu2
03051414 4141 00 1 0.00000000E+00 # coeffCLnu2nu2NP
03051414 4241 00 1 0.40383141E-13 # coeffCLPnu2nu2NP
03051616 4141 00 0 -0.11529279E-07 # coeffCLnu3nu3SM
03051616 4141 00 2 -0.11529279E-07 # coeffCLnu3nu3
03051616 4241 00 2 0.40373638E-13 # coeffCLPnu3nu3
03051616 4141 00 1 0.00000000E+00 # coeffCLnu3nu3NP
03051616 4241 00 1 0.40373638E-13 # coeffCLPnu3nu3NP
03051212 4142 00 0 0.00000000E+00 # coeffCRnu1nu1SM
03051212 4142 00 2 0.11551210E-07 # coeffCRnu1nu1
03051212 4242 00 2 -0.40383175E-13 # coeffCRPnu1nu1
03051212 4142 00 1 0.11551210E-07 # coeffCRnu1nu1NP
03051212 4242 00 1 -0.40383175E-13 # coeffCRPnu1nu1NP
03051414 4142 00 0 0.00000000E+00 # coeffCRnu2nu2SM
03051414 4142 00 2 0.11551116E-07 # coeffCRnu2nu2
03051414 4242 00 2 -0.40383141E-13 # coeffCRPnu2nu2
03051414 4142 00 1 0.11551116E-07 # coeffCRnu2nu2NP
03051414 4242 00 1 -0.40383141E-13 # coeffCRPnu2nu2NP
03051616 4142 00 0 0.00000000E+00 # coeffCRnu3nu3SM
03051616 4142 00 2 0.11529279E-07 # coeffCRnu3nu3
03051616 4242 00 2 -0.40373638E-13 # coeffCRPnu3nu3
03051616 4142 00 1 0.11529279E-07 # coeffCRnu3nu3NP
03051616 4242 00 1 -0.40373638E-13 # coeffCRPnu3nu3NP
01030103 3131 00 2 -0.82707767E-23 # coeffKK_SLL
01030103 3232 00 2 -0.29857504E-20 # coeffKK_SRR
01030103 3132 00 2 -0.78561287E-19 # coeffKK_SLR
01030103 4141 00 2 0.27911743E-12 # coeffKK_VLL
01030103 4242 00 2 0.34748940E-27 # coeffKK_VRR
01030103 4142 00 2 -0.15714476E-21 # coeffKK_VLR
01030103 4343 00 2 0.00000000E+00 # coeffKK_TLL
01030103 4444 00 2 0.00000000E+00 # coeffKK_TRR
01050105 3131 00 2 -0.28796464E-20 # coeffBB_SLL
01050105 3232 00 2 -0.20125734E-14 # coeffBB_SRR
01050105 3132 00 2 -0.19186042E-16 # coeffBB_SLR
01050105 4141 00 2 0.31550998E-11 # coeffBB_VLL
01050105 4242 00 2 0.18748803E-23 # coeffBB_VRR
01050105 4142 00 2 -0.24073844E-17 # coeffBB_VLR
01050105 4343 00 2 0.00000000E+00 # coeffBB_TLL
01050105 4444 00 2 0.00000000E+00 # coeffBB_TRR
03050305 3131 00 2 -0.30373329E-16 # coeffBsBs_SLL
03050305 3232 00 2 -0.58802765E-13 # coeffBsBs_SRR
03050305 3132 00 2 -0.10659482E-13 # coeffBsBs_SLR
03050305 4141 00 2 0.92217553E-10 # coeffBsBs_VLL
03050305 4242 00 2 0.19807577E-19 # coeffBsBs_VRR
03050305 4142 00 2 -0.13364265E-14 # coeffBsBs_VLR
03050305 4343 00 2 0.00000000E+00 # coeffBsBs_TLL
03050305 4444 00 2 0.00000000E+00 # coeffBsBs_TRR
01030103 3131 00 1 0.00000000E+00 # coeffKK_SLLNP
01030103 3232 00 1 0.00000000E+00 # coeffKK_SRRNP
01030103 3132 00 1 0.00000000E+00 # coeffKK_SLRNP
01030103 4141 00 1 0.00000000E+00 # coeffKK_VLLNP
01030103 4242 00 1 0.00000000E+00 # coeffKK_VRRNP
01030103 4142 00 1 0.00000000E+00 # coeffKK_VLRNP
01030103 4343 00 1 0.00000000E+00 # coeffKK_TLLNP
01030103 4444 00 1 0.00000000E+00 # coeffKK_TRRNP
01050105 3131 00 1 0.00000000E+00 # coeffBB_SLLNP
01050105 3232 00 1 0.00000000E+00 # coeffBB_SRRNP
01050105 3132 00 1 0.00000000E+00 # coeffBB_SLRNP
01050105 4141 00 1 0.00000000E+00 # coeffBB_VLLNP
01050105 4242 00 1 0.00000000E+00 # coeffBB_VRRNP
01050105 4142 00 1 0.00000000E+00 # coeffBB_VLRNP
01050105 4343 00 1 0.00000000E+00 # coeffBB_TLLNP
01050105 4444 00 1 0.00000000E+00 # coeffBB_TRRNP
03050305 3131 00 1 0.00000000E+00 # coeffBsBs_SLLNP
03050305 3232 00 1 0.00000000E+00 # coeffBsBs_SRRNP
03050305 3132 00 1 0.00000000E+00 # coeffBsBs_SLRNP
03050305 4141 00 1 0.00000000E+00 # coeffBsBs_VLLNP
03050305 4242 00 1 0.00000000E+00 # coeffBsBs_VRRNP
03050305 4142 00 1 0.00000000E+00 # coeffBsBs_VLRNP
03050305 4343 00 1 0.00000000E+00 # coeffBsBs_TLLNP
03050305 4444 00 1 0.00000000E+00 # coeffBsBs_TRRNP
01030103 3131 00 0 -0.82707767E-23 # coeffKK_SLLSM
01030103 3232 00 0 -0.29857504E-20 # coeffKK_SRRSM
01030103 3132 00 0 -0.78561287E-19 # coeffKK_SLRSM
01030103 4141 00 0 0.27911743E-12 # coeffKK_VLLSM
01030103 4242 00 0 0.34748940E-27 # coeffKK_VRRSM
01030103 4142 00 0 -0.15714476E-21 # coeffKK_VLRSM
01030103 4343 00 0 0.00000000E+00 # coeffKK_TLLSM
01030103 4444 00 0 0.00000000E+00 # coeffKK_TRRSM
01050105 3131 00 0 -0.28796464E-20 # coeffBB_SLLSM
01050105 3232 00 0 -0.20125734E-14 # coeffBB_SRRSM
01050105 3132 00 0 -0.19186042E-16 # coeffBB_SLRSM
01050105 4141 00 0 0.31550998E-11 # coeffBB_VLLSM
01050105 4242 00 0 0.18748803E-23 # coeffBB_VRRSM
01050105 4142 00 0 -0.24073844E-17 # coeffBB_VLRSM
01050105 4343 00 0 0.00000000E+00 # coeffBB_TLLSM
01050105 4444 00 0 0.00000000E+00 # coeffBB_TRRSM
03050305 3131 00 0 -0.30373329E-16 # coeffBsBs_SLLSM
03050305 3232 00 0 -0.58802765E-13 # coeffBsBs_SRRSM
03050305 3132 00 0 -0.10659482E-13 # coeffBsBs_SLRSM
03050305 4141 00 0 0.92217553E-10 # coeffBsBs_VLLSM
03050305 4242 00 0 0.19807577E-19 # coeffBsBs_VRRSM
03050305 4142 00 0 -0.13364265E-14 # coeffBsBs_VLRSM
03050305 4343 00 0 0.00000000E+00 # coeffBsBs_TLLSM
03050305 4444 00 0 0.00000000E+00 # coeffBsBs_TRRSM
Block IMFWCOEF Q= 1.60000000E+02 # Im(Wilson coefficients) at scale Q
0305 4422 00 0 -0.28968001E-10 # coeffC7sm
0305 4422 00 2 -0.28968001E-10 # coeffC7
0305 4322 00 2 -0.65762008E-12 # coeffC7p
0305 4422 00 1 0.00000000E+00 # coeffC7NP
0305 4322 00 1 -0.65762008E-12 # coeffC7pNP
0305 6421 00 0 -0.15057438E-10 # coeffC8sm
0305 6421 00 2 -0.15057438E-10 # coeffC8
0305 6321 00 2 -0.34150541E-12 # coeffC8p
0305 6421 00 1 0.00000000E+00 # coeffC8NP
0305 6321 00 1 -0.34150541E-12 # coeffC8pNP
03051111 4133 00 0 -0.17890766E-10 # coeffC9eeSM
03051111 4133 00 2 -0.17890766E-10 # coeffC9ee
03051111 4233 00 2 0.38145966E-16 # coeffC9Pee
03051111 4133 00 1 0.00000000E+00 # coeffC9eeNP
03051111 4233 00 1 0.38145966E-16 # coeffC9PeeNP
03051111 4137 00 0 0.66827167E-10 # coeffC10eeSM
03051111 4137 00 2 0.66827167E-10 # coeffC10ee
03051111 4237 00 2 0.36120054E-15 # coeffC10Pee
03051111 4137 00 1 0.00000000E+00 # coeffC10eeNP
03051111 4237 00 1 -0.36120054E-15 # coeffC10PeeNP
03051313 4133 00 0 -0.17890757E-10 # coeffC9mumuSM
03051313 4133 00 2 -0.17890757E-10 # coeffC9mumu
03051313 4233 00 2 0.38145663E-16 # coeffC9Pmumu
03051313 4133 00 1 0.00000000E+00 # coeffC9mumuNP
03051313 4233 00 1 0.38145663E-16 # coeffC9PmumuNP
03051313 4137 00 0 0.66827175E-10 # coeffC10mumuSM
03051313 4137 00 2 0.66827175E-10 # coeffC10mumu
03051313 4237 00 2 0.36120084E-15 # coeffC10Pmumu
03051313 4137 00 1 0.00000000E+00 # coeffC10mumuNP
03051313 4237 00 1 0.36120084E-15 # coeffC10PmumuNP
03051212 4141 00 0 0.20632875E-09 # coeffCLnu1nu1SM
03051212 4141 00 2 0.20632875E-09 # coeffCLnu1nu1
03051212 4241 00 2 -0.72240108E-15 # coeffCLPnu1nu1
03051212 4141 00 1 0.00000000E+00 # coeffCLnu1nu1NP
03051212 4241 00 1 -0.72240108E-15 # coeffCLPnu1nu1NP
03051414 4141 00 0 0.20632597E-09 # coeffCLnu2nu2SM
03051414 4141 00 2 0.20632597E-09 # coeffCLnu2nu2
03051414 4241 00 2 -0.72240047E-15 # coeffCLPnu2nu2
03051414 4141 00 1 0.00000000E+00 # coeffCLnu2nu2NP
03051414 4241 00 1 -0.72240047E-15 # coeffCLPnu2nu2NP
03051616 4141 00 0 0.20589377E-09 # coeffCLnu3nu3SM
03051616 4141 00 2 0.20589377E-09 # coeffCLnu3nu3
03051616 4241 00 2 -0.72223055E-15 # coeffCLPnu3nu3
03051616 4141 00 1 0.00000000E+00 # coeffCLnu3nu3NP
03051616 4241 00 1 -0.72223055E-15 # coeffCLPnu3nu3NP
03051212 4142 00 0 0.00000000E+00 # coeffCRnu1nu1SM
03051212 4142 00 2 -0.20632875E-09 # coeffCRnu1nu1
03051212 4242 00 2 0.72240108E-15 # coeffCRPnu1nu1
03051212 4142 00 1 -0.20632875E-09 # coeffCRnu1nu1NP
03051212 4242 00 1 0.72240108E-15 # coeffCRPnu1nu1NP
03051414 4142 00 0 0.00000000E+00 # coeffCRnu2nu2SM
03051414 4142 00 2 -0.20632597E-09 # coeffCRnu2nu2
03051414 4242 00 2 0.72240047E-15 # coeffCRPnu2nu2
03051414 4142 00 1 -0.20632597E-09 # coeffCRnu2nu2NP
03051414 4242 00 1 0.72240047E-15 # coeffCRPnu2nu2NP
03051616 4142 00 0 0.00000000E+00 # coeffCRnu3nu3SM
03051616 4142 00 2 -0.20589377E-09 # coeffCRnu3nu3
03051616 4242 00 2 0.72223055E-15 # coeffCRPnu3nu3
03051616 4142 00 1 -0.20589377E-09 # coeffCRnu3nu3NP
03051616 4242 00 1 0.72223055E-15 # coeffCRPnu3nu3NP
01030103 3131 00 2 -0.53033230E-23 # coeffKK_SLL
01030103 3232 00 2 -0.19144996E-20 # coeffKK_SRR
01030103 3132 00 2 -0.13032938E-20 # coeffKK_SLR
01030103 4141 00 2 0.73966764E-14 # coeffKK_VLL
01030103 4242 00 2 0.40140307E-29 # coeffKK_VRR
01030103 4142 00 2 -0.10076314E-21 # coeffKK_VLR
01030103 4343 00 2 0.00000000E+00 # coeffKK_TLL
01030103 4444 00 2 0.00000000E+00 # coeffKK_TRR
01050105 3131 00 2 -0.26037109E-20 # coeffBB_SLL
01050105 3232 00 2 -0.18197232E-14 # coeffBB_SRR
01050105 3132 00 2 -0.17377230E-16 # coeffBB_SLR
01050105 4141 00 2 0.28549059E-11 # coeffBB_VLL
01050105 4242 00 2 0.17010404E-23 # coeffBB_VRR
01050105 4142 00 2 -0.21767023E-17 # coeffBB_VLR
01050105 4343 00 2 0.00000000E+00 # coeffBB_TLL
01050105 4444 00 2 0.00000000E+00 # coeffBB_TRR
03050305 3131 00 2 0.10847210E-17 # coeffBsBs_SLL
03050305 3232 00 2 0.21000198E-14 # coeffBsBs_SRR
03050305 3132 00 2 0.38109997E-15 # coeffBsBs_SLR
03050305 4141 00 2 -0.32949475E-11 # coeffBsBs_VLL
03050305 4242 00 2 -0.70894680E-21 # coeffBsBs_VRR
03050305 4142 00 2 0.47727723E-16 # coeffBsBs_VLR
03050305 4343 00 2 0.00000000E+00 # coeffBsBs_TLL
03050305 4444 00 2 0.00000000E+00 # coeffBsBs_TRR
01030103 3131 00 1 0.00000000E+00 # coeffKK_SLLNP
01030103 3232 00 1 0.00000000E+00 # coeffKK_SRRNP
01030103 3132 00 1 0.00000000E+00 # coeffKK_SLRNP
01030103 4141 00 1 0.00000000E+00 # coeffKK_VLLNP
01030103 4242 00 1 0.00000000E+00 # coeffKK_VRRNP
01030103 4142 00 1 0.00000000E+00 # coeffKK_VLRNP
01030103 4343 00 1 0.00000000E+00 # coeffKK_TLLNP
01030103 4444 00 1 0.00000000E+00 # coeffKK_TRRNP
01050105 3131 00 1 0.00000000E+00 # coeffBB_SLLNP
01050105 3232 00 1 0.00000000E+00 # coeffBB_SRRNP
01050105 3132 00 1 0.00000000E+00 # coeffBB_SLRNP
01050105 4141 00 1 0.00000000E+00 # coeffBB_VLLNP
01050105 4242 00 1 0.00000000E+00 # coeffBB_VRRNP
01050105 4142 00 1 0.00000000E+00 # coeffBB_VLRNP
01050105 4343 00 1 0.00000000E+00 # coeffBB_TLLNP
01050105 4444 00 1 0.00000000E+00 # coeffBB_TRRNP
03050305 3131 00 1 0.00000000E+00 # coeffBsBs_SLLNP
03050305 3232 00 1 0.00000000E+00 # coeffBsBs_SRRNP
03050305 3132 00 1 0.00000000E+00 # coeffBsBs_SLRNP
03050305 4141 00 1 0.00000000E+00 # coeffBsBs_VLLNP
03050305 4242 00 1 0.00000000E+00 # coeffBsBs_VRRNP
03050305 4142 00 1 0.00000000E+00 # coeffBsBs_VLRNP
03050305 4343 00 1 0.00000000E+00 # coeffBsBs_TLLNP
03050305 4444 00 1 0.00000000E+00 # coeffBsBs_TRRNP
01030103 3131 00 0 -0.53033230E-23 # coeffKK_SLLSM
01030103 3232 00 0 -0.19144996E-20 # coeffKK_SRRSM
01030103 3132 00 0 -0.13032938E-20 # coeffKK_SLRSM
01030103 4141 00 0 0.73966764E-14 # coeffKK_VLLSM
01030103 4242 00 0 0.40140307E-29 # coeffKK_VRRSM
01030103 4142 00 0 -0.10076314E-21 # coeffKK_VLRSM
01030103 4343 00 0 0.00000000E+00 # coeffKK_TLLSM
01030103 4444 00 0 0.00000000E+00 # coeffKK_TRRSM
01050105 3131 00 0 -0.26037109E-20 # coeffBB_SLLSM
01050105 3232 00 0 -0.18197232E-14 # coeffBB_SRRSM
01050105 3132 00 0 -0.17377230E-16 # coeffBB_SLRSM
01050105 4141 00 0 0.28549059E-11 # coeffBB_VLLSM
01050105 4242 00 0 0.17010404E-23 # coeffBB_VRRSM
01050105 4142 00 0 -0.21767023E-17 # coeffBB_VLRSM
01050105 4343 00 0 0.00000000E+00 # coeffBB_TLLSM
01050105 4444 00 0 0.00000000E+00 # coeffBB_TRRSM
03050305 3131 00 0 0.10847210E-17 # coeffBsBs_SLLSM
03050305 3232 00 0 0.21000198E-14 # coeffBsBs_SRRSM
03050305 3132 00 0 0.38109997E-15 # coeffBsBs_SLRSM
03050305 4141 00 0 -0.32949475E-11 # coeffBsBs_VLLSM
03050305 4242 00 0 -0.70894680E-21 # coeffBsBs_VRRSM
03050305 4142 00 0 0.47727723E-16 # coeffBsBs_VLRSM
03050305 4343 00 0 0.00000000E+00 # coeffBsBs_TLLSM
03050305 4444 00 0 0.00000000E+00 # coeffBsBs_TRRSM
DECAY 6 1.53621095E+00 # Fu_3
# BR NDA ID1 ID2
1.63600918E-03 2 3 24 # BR(Fu_3 -> Fd_2 VWp )
9.98288550E-01 2 5 24 # BR(Fu_3 -> Fd_3 VWp )
DECAY 25 7.82441878E-01 # hh_1
# BR NDA ID1 ID2
2.20139449E-04 2 21 21 # BR(hh_1 -> VG VG )
5.46465830E-04 2 -24 24 # BR(hh_1 -> VWp^* VWp_virt )
9.27434902E-01 2 200002 200002 # BR(hh_1 -> Ah_2 Ah_2 )
1.43798437E-03 2 -5 5 # BR(hh_1 -> Fd_3^* Fd_3 )
1.66856751E-04 2 -15 15 # BR(hh_1 -> Fe_3^* Fe_3 )
1.26492090E-03 2 3001 3001 # BR(hh_1 -> FX0_1 FX0_1 )
1.40941714E-03 2 3002 3002 # BR(hh_1 -> FX0_2 FX0_2 )
6.73845016E-02 2 3003 3003 # BR(hh_1 -> FX0_3 FX0_3 )
DECAY 1111 8.78979574E+01 # hh_2
# BR NDA ID1 ID2
2.29211102E-04 2 21 21 # BR(hh_2 -> VG VG )
5.40837114E-01 2 200002 200002 # BR(hh_2 -> Ah_2 Ah_2 )
8.56487799E-02 2 -6 6 # BR(hh_2 -> Fu_3^* Fu_3 )
9.87224766E-03 2 3003 3003 # BR(hh_2 -> FX0_3 FX0_3 )
4.02092666E-02 2 25 25 # BR(hh_2 -> hh_1 hh_1 )
2.18409146E-01 2 24 -24 # BR(hh_2 -> VWp VWp^* )
1.04647466E-01 2 23 23 # BR(hh_2 -> VZ VZ )
DECAY 1001 6.31489510E-02 # etaR
# BR NDA ID1 ID2
2.14976744E-01 2 3001 12 # BR(etaR -> FX0_1 Fv_1 )
9.09977093E-02 2 3001 14 # BR(etaR -> FX0_1 Fv_2 )
1.48195448E-03 2 3001 16 # BR(etaR -> FX0_1 Fv_3 )
4.03014665E-01 2 3002 12 # BR(etaR -> FX0_2 Fv_1 )
3.38524687E-03 2 3002 14 # BR(etaR -> FX0_2 Fv_2 )
4.07678969E-03 2 3002 16 # BR(etaR -> FX0_2 Fv_3 )
2.76753533E-01 2 3003 12 # BR(etaR -> FX0_3 Fv_1 )
3.65344890E-03 2 3003 14 # BR(etaR -> FX0_3 Fv_2 )
1.65990814E-03 2 3003 16 # BR(etaR -> FX0_3 Fv_3 )
DECAY 1002 6.31489236E-02 # etaI
# BR NDA ID1 ID2
2.14976744E-01 2 3001 12 # BR(etaI -> FX0_1 Fv_1 )
9.09977093E-02 2 3001 14 # BR(etaI -> FX0_1 Fv_2 )
1.48195448E-03 2 3001 16 # BR(etaI -> FX0_1 Fv_3 )
4.03014665E-01 2 3002 12 # BR(etaI -> FX0_2 Fv_1 )
3.38524687E-03 2 3002 14 # BR(etaI -> FX0_2 Fv_2 )
4.07678969E-03 2 3002 16 # BR(etaI -> FX0_2 Fv_3 )
2.76753533E-01 2 3003 12 # BR(etaI -> FX0_3 Fv_1 )
3.65344890E-03 2 3003 14 # BR(etaI -> FX0_3 Fv_2 )
1.65990814E-03 2 3003 16 # BR(etaI -> FX0_3 Fv_3 )
DECAY 1003 6.31489279E-02 # etap
# BR NDA ID1 ID2
2.14976745E-01 2 -11 3001 # BR(etap -> Fe_1^* FX0_1 )
4.03014668E-01 2 -11 3002 # BR(etap -> Fe_1^* FX0_2 )
2.76753534E-01 2 -11 3003 # BR(etap -> Fe_1^* FX0_3 )
9.09977096E-02 2 -13 3001 # BR(etap -> Fe_2^* FX0_1 )
3.38524688E-03 2 -13 3002 # BR(etap -> Fe_2^* FX0_2 )
3.65344891E-03 2 -13 3003 # BR(etap -> Fe_2^* FX0_3 )
1.48195339E-03 2 -15 3001 # BR(etap -> Fe_3^* FX0_1 )
4.07678671E-03 2 -15 3002 # BR(etap -> Fe_3^* FX0_2 )
1.65990692E-03 2 -15 3003 # BR(etap -> Fe_3^* FX0_3 )
I would really appreciate it if you could please help me to tackle this issue.
Best regards
Gustavo
Question information
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- Solved by:
- Olivier Mattelaer
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