########################################################################## ## Defaults for StandardModel_SLHA2 parameters in MSSM scans. ## ## Not a top-level configuration file! Instead, import this file, e.g. ## Parameters: ## StandardModel_SLHA2: !import include/StandardModel_SLHA2_scan.yaml ## ## These values are as for the default SM params file, but with 3-sigma uncertainty ## ranges on the alpha_s and m_top values. ## ## Values from PDG 2017 ## # from http://pdg.lbl.gov/2017/mobile/summary-tables/pdf/rpp2017-sum-quarks-m.pdf ## (for reference: http://pdg.lbl.gov/2017/reviews/rpp2017-rev-quark-masses.pdf) ## & from http://pdg.lbl.gov/2017/tables/rpp2017-sum-leptons.pdf ## @ from http://pdg.lbl.gov/2017/reviews/rpp2017-rev-qcd.pdf ## ! from http://pdg.lbl.gov/2017/reviews/rpp2017-rev-standard-model.pdf ## $ from http://pdg.lbl.gov/2017/reviews/rpp2017-rev-top-quark.pdf ## ## If more than one source is listed, values are equal in both sources. ## Values in GeV where units apply. ########################################################################### # SLHA1 alphainv: 1.27950000E+02 # alpha^{-1}(mZ)^MSbar ! # range: [127.899, 128.001] GF : 1.16637870E-05 # G_Fermi ! alphaS : # 1.18100000E-01 # alpha_s(mZ)^MSbar @ range: [0.1148, 0.1214] mZ : 9.11876000E+01 # mZ(pole) ! mBmB : 4.18000000E+00 # mb(mb)^MSbar # mT : # 1.73340000E+02 # mtop(pole) $ range: [171.06, 175.62] mTau : 1.77686000E+00 # mtau(pole) & mNu3 : 0 # mnu3(pole) # SLHA2 mE : 5.10998946E-04 # melectron(pole) & mNu1 : 0 # mnu1(pole) mMu : 1.05658375E-01 # mmuon(pole) & mNu2 : 0 # mnu2(pole) mD : 4.70000000E-03 # md(2 GeV)^MSbar # mU : 2.20000000E-03 # mu(2 GeV)^MSbar # mS : 9.60000000E-02 # ms(2 GeV)^MSbar # mCmC : 1.28000000E+00 # mc(mc)^MSbar # # CKM # Wolfenstein parameterisation (matches SLHA2 VCKMIN block) # from http://pdg.lbl.gov/2014/reviews/rpp2014-rev-ckm-matrix.pdf CKM_lambda : 0.22537 CKM_A : 0.814 CKM_rhobar : 0.117 CKM_etabar : 0.353 # PMNS # from http://pdg.lbl.gov/2014/tables/rpp2014-sum-leptons.pdf # see also http://pdg.lbl.gov/2014/reviews/rpp2014-rev-neutrino-mixing.pdf # Note: angles given as x = sin^2(2*theta), so I have converted them as: # theta = 0.5*arcsin(sqrt(x)) # CP-violating phases not measured, so I set them to zero. theta12 : 0.58376 # solar angle theta23 : 0.76958 # atmospheric mixing angle theta13 : 0.15495 # delta13 : 0 # Dirac CP-violating phase alpha1 : 0 # first Majorana CP-violating phase alpha2 : 0 # second CP-violating Majorana phase