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# This file was automatically created by FeynRules $Revision: 535 $
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# Mathematica version: 7.0 for Mac OS X x86 (64-bit) (November 11, 2008)
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# Date: Fri 18 Mar 2011 18:40:51
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from object_library import all_CTparameters, CTParameter
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from function_library import complexconjugate, re, im, csc, sec, acsc, asec
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RGR2 = CTParameter(name = 'RGR2',
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value = {0:'-(3.0/2.0)*G**4/(96.0*cmath.pi**2)'},
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R2MixedFactor = CTParameter(name = 'R2MixedFactor',
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value = {0:'-(G**2*(1.0+lhv)*(Ncol**2-1.0))/(2.0*Ncol*16.0*cmath.pi**2)'},
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texname = 'R2MixedFactor')
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G_UVg = CTParameter(name = 'G_UVg',
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value = {-1:'-((G**2)/(2.0*48.0*cmath.pi**2))*11.0*CA'},
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texname = '\delta Gg')
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G_UVq = CTParameter(name = 'G_UVq',
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value = {-1:'((G**2)/(2.0*48.0*cmath.pi**2))*4.0*TF'},
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texname = '\delta Gq')
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G_UVc = CTParameter(name = 'G_UVc',
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value = {-1:'((G**2)/(2.0*48.0*cmath.pi**2))*4.0*TF',
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0:'cond(MC,0.0,-((G**2)/(2.0*48.0*cmath.pi**2))*4.0*TF*reglog(MC**2/MU_R**2))'},
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texname = '\delta Gc')
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G_UVb = CTParameter(name = 'G_UVb',
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value = {-1:'((G**2)/(2.0*48.0*cmath.pi**2))*4.0*TF',
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0:'cond(MB,0.0,-((G**2)/(2.0*48.0*cmath.pi**2))*4.0*TF*reglog(MB**2/MU_R**2))'},
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texname = '\delta Gb')
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G_UVt = CTParameter(name = 'G_UVt',
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value = {-1:'((G**2)/(2.0*48.0*cmath.pi**2))*4.0*TF',
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0:'cond(MT,0.0,-((G**2)/(2.0*48.0*cmath.pi**2))*4.0*TF*reglog(MT**2/MU_R**2))'},
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texname = '\delta Gt')
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GWcft_UV_c = CTParameter(name = 'GWcft_UV_c',
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value = {-1:'cond(MC,0.0,-((G**2)/(2.0*48.0*cmath.pi**2))*4.0*TF)',
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0:'cond(MC,0.0,((G**2)/(2.0*48.0*cmath.pi**2))*4.0*TF*reglog(MC**2/MU_R**2))'
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texname = '\delta G_{wfct\_c}')
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GWcft_UV_b = CTParameter(name = 'GWcft_UV_b',
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value = {-1:'cond(MB,0.0,-((G**2)/(2.0*48.0*cmath.pi**2))*4.0*TF)',
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0:'cond(MB,0.0,((G**2)/(2.0*48.0*cmath.pi**2))*4.0*TF*reglog(MB**2/MU_R**2))'
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texname = '\delta G_{wfct\_b}')
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GWcft_UV_t = CTParameter(name = 'GWcft_UV_t',
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value = {-1:'cond(MT,0.0,-((G**2)/(2.0*48.0*cmath.pi**2))*4.0*TF)',
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0:'cond(MT,0.0,((G**2)/(2.0*48.0*cmath.pi**2))*4.0*TF*reglog(MT**2/MU_R**2))'
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texname = '\delta G_{wfct\_t}')
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cWcft_UV = CTParameter(name = 'cWcft_UV',
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value = {-1:'cond(MC,0.0,-((G**2)/(2.0*16.0*cmath.pi**2))*3.0*CF)',
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0:'cond(MC,0.0,-((G**2)/(2.0*16.0*cmath.pi**2))*CF*(4.0-3.0*reglog(MC**2/MU_R**2)))'
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texname = '\delta Z_c')
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bWcft_UV = CTParameter(name = 'bWcft_UV',
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value = {-1:'cond(MB,0.0,-((G**2)/(2.0*16.0*cmath.pi**2))*3.0*CF)',
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0:'cond(MB,0.0,-((G**2)/(2.0*16.0*cmath.pi**2))*CF*(4.0-3.0*reglog(MB**2/MU_R**2)))'
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texname = '\delta Z_b')
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tWcft_UV = CTParameter(name = 'tWcft_UV',
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value = {-1:'cond(MT,0.0,-((G**2)/(2.0*16.0*cmath.pi**2))*3.0*CF)',
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0:'cond(MT,0.0,-((G**2)/(2.0*16.0*cmath.pi**2))*CF*(4.0-3.0*reglog(MT**2/MU_R**2)))'
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texname = '\delta Z_t')
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bMass_UV = CTParameter(name = 'bMass_UV',
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value = {-1:'cond(MB,0.0,complex(0,1)*((G**2)/(16.0*cmath.pi**2))*(3.0*CF)*MB)',
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0:'cond(MB,0.0,complex(0,1)*((G**2)/(16.0*cmath.pi**2))*CF*(4.0-3.0*reglog(MB**2/MU_R**2))*MB)'
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texname = '\delta m_b')
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cMass_UV = CTParameter(name = 'cMass_UV',
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value = {-1:'cond(MC,0.0,complex(0,1)*((G**2)/(16.0*cmath.pi**2))*(3.0*CF)*MC)',
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0:'cond(MC,0.0,complex(0,1)*((G**2)/(16.0*cmath.pi**2))*CF*(4.0-3.0*reglog(MC**2/MU_R**2))*MC)'
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texname = '\delta m_c')
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tMass_UV = CTParameter(name = 'tMass_UV',
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value = {-1:'cond(MT,0.0,complex(0,1)*((G**2)/(16.0*cmath.pi**2))*3.0*CF*MT)',
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0:'cond(MT,0.0,complex(0,1)*((G**2)/(16.0*cmath.pi**2))*CF*(4.0-3.0*reglog(MT**2/MU_R**2))*MT)'
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texname = '\delta m_t')
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UV_yuk_c = CTParameter(name = 'UV_yuk_c',
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value = {-1:'-(1.0/2.0)*((G**2)/(16.0*cmath.pi**2))*3.0*CF*2.0',
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0:'cond(MC,0.0,-(1.0/2.0)*((G**2)/(16.0*cmath.pi**2))*CF*(-3.0*reglog(MC**2/MU_R**2)+4.0)*2.0)'
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texname = '\delta y_c')
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UV_yuk_b = CTParameter(name = 'UV_yuk_b',
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value = {-1:'-(1.0/2.0)*((G**2)/(16.0*cmath.pi**2))*3.0*CF*2.0',
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0:'cond(MB,0.0,-(1.0/2.0)*((G**2)/(16.0*cmath.pi**2))*CF*(-3.0*reglog(MB**2/MU_R**2)+4.0)*2.0)'
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texname = '\delta y_b')
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UV_yuk_t = CTParameter(name = 'UV_yuk_t',
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value = {-1:'-(1.0/2.0)*((G**2)/(16.0*cmath.pi**2))*3.0*CF*2.0',
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0:'cond(MT,0.0,-(1.0/2.0)*((G**2)/(16.0*cmath.pi**2))*CF*(-3.0*reglog(MT**2/MU_R**2)+4.0)*2.0)'
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texname = '\delta y_t')
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# ============================== #
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# Goldstone UV CT parameters #
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# ============================== #
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R2_GGGpGm_factor = CTParameter(name = 'R2_GGGpGm_factor',
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value = {0:'G**2/(8.0*cmath.pi**2)'},
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texname = 'R2_GGGpGm_factor')
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R2_GGG0G0_factor = CTParameter(name = 'R2_GGG0G0_factor',
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value = {0:'G**2/(8.0*cmath.pi**2)'},
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texname = 'R2_GGG0G0_factor')