forked from Expander/FlexibleSUSY
/
FlexibleSUSY.m.in
133 lines (118 loc) · 3.61 KB
/
FlexibleSUSY.m.in
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FSModelName = "@CLASSNAME@";
FSEigenstates = SARAH`EWSB;
FSDefaultSARAHModel = MSSM;
OnlyLowEnergyFlexibleSUSY = True;
FlexibleEFTHiggs = True;
EXTPAR = {
{0, MSUSY},
{1, M1Input},
{2, M2Input},
{3, M3Input},
{4, MuInput},
{5, mAInput},
{25, TanBeta}
};
FSExtraInputParameters = {
{mq2Input, MSQ2IN, {3,3}}, (* 3x3 matrix *)
{mu2Input, MSU2IN, {3,3}}, (* 3x3 matrix *)
{md2Input, MSD2IN, {3,3}}, (* 3x3 matrix *)
{ml2Input, MSL2IN, {3,3}}, (* 3x3 matrix *)
{me2Input, MSE2IN, {3,3}}, (* 3x3 matrix *)
{AuInput, AUIN, {3,3}}, (* 3x3 matrix *)
{AdInput, ADIN, {3,3}}, (* 3x3 matrix *)
{AeInput, AEIN, {3,3}} (* 3x3 matrix *)
};
EWSBOutputParameters = { mHd2, mHu2 };
SUSYScale = MSUSY;
SUSYScaleFirstGuess = MSUSY;
SUSYScaleInput = {
{vu, Sqrt[vu^2 + vd^2] Sin[ArcTan[TanBeta]]},
{vd, Sqrt[vu^2 + vd^2] Cos[ArcTan[TanBeta]]},
{MassB, M1Input},
{MassWB, M2Input},
{MassG, M3Input},
{mq2, mq2Input},
{mu2, mu2Input},
{md2, md2Input},
{ml2, ml2Input},
{me2, me2Input},
{\[Mu], MuInput},
{B[\[Mu]], mAInput^2/(TanBeta + 1/TanBeta)},
{T[Yu], AuInput Yu},
{T[Yd], AdInput Yd},
{T[Ye], AeInput Ye}
};
InitialGuessAtSUSYScale = {
{vu, LowEnergyConstant[vev] Sin[ArcTan[TanBeta]]},
{vd, LowEnergyConstant[vev] Cos[ArcTan[TanBeta]]},
{MassB, M1Input},
{MassWB, M2Input},
{MassG, M3Input},
{mq2, mq2Input},
{mu2, mu2Input},
{md2, md2Input},
{ml2, ml2Input},
{me2, me2Input},
{\[Mu], MuInput},
{B[\[Mu]], mAInput^2/(TanBeta + 1/TanBeta)},
{T[Yu], AuInput Yu},
{T[Yd], AdInput Yd},
{T[Ye], AeInput Ye}
};
(* VEV is the SM-like VEV in the MSSM *)
SUSYScaleMatching = {
{vu, VEV Sin[ArcTan[vu/vd]]},
{vd, VEV Cos[ArcTan[vu/vd]]}
};
LowScale = LowEnergyConstant[MZ];
LowScaleFirstGuess = LowEnergyConstant[MZ];
UseHiggs2LoopMSSM = True;
EffectiveMu = \[Mu];
PotentialLSPParticles = { Chi, Sv, Su, Sd, Se, Cha, Glu };
DefaultPoleMassPrecision = HighPrecision;
HighPoleMassPrecision = {hh, Ah, Hpm};
MediumPoleMassPrecision = {};
LowPoleMassPrecision = {};
ExtraSLHAOutputBlocks = {
{FlexibleSUSYOutput,
{{0, Hold[HighScale]},
{1, Hold[SUSYScale]},
{2, Hold[LowScale]} } },
{ALPHA, {{ArcSin[Pole[ZH[2,2]]]}}},
{HMIX , {{1, \[Mu]},
{2, vu / vd},
{3, Sqrt[vu^2 + vd^2]},
{4, M[Ah[2]]^2},
{101, B[\[Mu]]},
{102, vd},
{103, vu} } },
{Au, {{1, 1, T[Yu][1,1] / Yu[1,1]},
{2, 2, T[Yu][2,2] / Yu[2,2]},
{3, 3, T[Yu][3,3] / Yu[3,3]} } },
{Ad, {{1, 1, T[Yd][1,1] / Yd[1,1]},
{2, 2, T[Yd][2,2] / Yd[2,2]},
{3, 3, T[Yd][3,3] / Yd[3,3]} } },
{Ae, {{1, 1, T[Ye][1,1] / Ye[1,1]},
{2, 2, T[Ye][2,2] / Ye[2,2]},
{3, 3, T[Ye][3,3] / Ye[3,3]} } },
{MSOFT, {{1, MassB},
{2, MassWB},
{3, MassG},
{21, mHd2},
{22, mHu2},
{31, SignedAbsSqrt[ml2[1,1]]},
{32, SignedAbsSqrt[ml2[2,2]]},
{33, SignedAbsSqrt[ml2[3,3]]},
{34, SignedAbsSqrt[me2[1,1]]},
{35, SignedAbsSqrt[me2[2,2]]},
{36, SignedAbsSqrt[me2[3,3]]},
{41, SignedAbsSqrt[mq2[1,1]]},
{42, SignedAbsSqrt[mq2[2,2]]},
{43, SignedAbsSqrt[mq2[3,3]]},
{44, SignedAbsSqrt[mu2[1,1]]},
{45, SignedAbsSqrt[mu2[2,2]]},
{46, SignedAbsSqrt[mu2[3,3]]},
{47, SignedAbsSqrt[md2[1,1]]},
{48, SignedAbsSqrt[md2[2,2]]},
{49, SignedAbsSqrt[md2[3,3]]} } }
};