MadGraph5_aMC@NLO

Problem with param_card generated by SPheno

Asked by Gustavo Ardila

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: higgscouplingsbosons (3, 25, 23) is already define to 23 23 impossible to assign 23 22

The generation commands go as follows

import model /home/pheno/2024/Scotogenic_U1_UFO/ -modelname
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.Phys.Commun.183 (2012) 2458-2469, arXiv:1104.1573
# 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^-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 1.72890000E+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 HiggsCouplingsFermions #
    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 HiggsCouplingsBosons #
    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_Bs)/Delta(M_Bs)_SM
    1902 4.20496202E-01 # Delta(M_Bd)
    1903 1.00090528E+00 # Delta(M_Bd)/Delta(M_Bd)_SM
    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_K)/Delta(M_K)_SM
    9103 1.83590241E-03 # epsilon_K
    9104 9.99996939E-01 # epsilon_K/epsilon_K^SM
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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MadGraph5_aMC@NLO Edit question
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Olivier Mattelaer
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Revision history for this message
Olivier Mattelaer (olivier-mattelaer) said : 		#1

The issue is that your param_card syntax is not compatible with the syntax supported by MG5aMC version 3.1.0.
We are currently trying to add detection for the syntax that does not follow the SLHA2 convention to see how to ignore such entry and have made progress in that direction but I'm not sure that we are done.

In any case could you try to use 3.5.3 version and check if the situation is fully solve for you or if you still have some problematic block?

Thanks,

Olivier

Revision history for this message
Gustavo Ardila (gardilaphys14) said : 		#2

Hi!

Thanks for your quick answer and help. I updated my version to 3.5.3 but now the following error appears

write debug file ME5_debug
If you need help with this issue please contact us on https://answers.launchpad.net/mg5amcnlo
str : Invalid restriction card (not same block)
            {'higgscouplingsbosons', 'sphenolowenergy', 'higgslhc8', 'uvmix', 'yu', 'imfwcoef', 'yd', 'decay', 'uulmix', 'mass', 'modsel', 'zx', 'higgsfcc100', 'higgslhc13', 'minpar', 'spheno', 'za0', 'fwcoef', 'gauge', 'higgscouplingsfermions', 'imuurmix', 'gaugegut', 'sm', 'higgslhc7', 'effhiggscouplings', 'sminputs', 'uermix', 'zh0', 'kappa', 'flavorkitqfv', 'couplingsyn', 'uelmix', 'imyu', 'imuulmix', 'flavorkitlfv', 'ye', 'hmix', 'imcouplingsyn', 'udlmix', 'hdm', 'higgslhc14', 'uurmix', 'udrmix'} != {'imudlmix', 'imuermix', 'uvmix', 'decay', 'uulmix', 'imuelmix', 'mass', 'imudrmix', 'zx', 'za0', 'imhdm', 'imuurmix', 'effhiggscouplings', 'sminputs', 'uermix', 'zh0', 'kappa', 'couplingsyn', 'uelmix', 'imuvmix', 'imuulmix', 'imkappa', 'imcouplingsyn', 'udlmix', 'hdm', 'imzx', 'uurmix', 'udrmix'}.
            Missing block: imudrmix,imkappa,imudlmix,imuermix,imzx,imuvmix,imhdm,imuelmix
            Unknown block : higgscouplingsbosons,sphenolowenergy,higgslhc8,yu,imfwcoef,yd,modsel,higgsfcc100,higgslhc13,minpar,spheno,fwcoef,higgscouplingsfermions,gauge,higgslhc7,gaugegut,sm,flavorkitqfv,imyu,flavorkitlfv,ye,hmix,higgslhc14

could you please guide me into how to solve this issue?

Thanks,

Gustavo

Revision history for this message
Olivier Mattelaer (olivier-mattelaer) said : 		#3

So here this seems (at first sight) a real error on the param_card that does not contains the expected information:

The UFO model seems to expect the following information block in the param_card:
imudrmix,imkappa,imudlmix,imuermix,imzx,imuvmix,imhdm,imuelmix
But those are missing (and indeed I do not see them from your above param_card).

So my advise would be to check with Sarah/Spheno author to check if this is expected that such block does exists in the UFO model but not included in the SPHENO card.

Cheers,

Olivier

Revision history for this message
Gustavo Ardila (gardilaphys14) said : 		#4

Those are the imaginary parts of some of our mixing matrices, which we take to be real so no need to consider them within our calculations. Thus, can I just set them to 0 on the cards?

Best

Gustavo

Revision history for this message
Best Olivier Mattelaer (olivier-mattelaer) said : 		#5

Yes setting them to zero is what is needed.

Cheers,

Olivier

Revision history for this message
Gustavo Ardila (gardilaphys14) said : 		#6

Hi!

It worked. Thank you so much

Revision history for this message
Gustavo Ardila (gardilaphys14) said : 		#7

Thanks Olivier Mattelaer, that solved my question.