"""
Define some default axis labels
"""
[docs]
def get_axis_labels():
axisLabels = {}
# VLQ stuff
#axisLabels["xibpw"] = r"$\mathrm{BR}(B \rightarrow~tW)$"
#axisLabels["xibph"] = r"$\mathrm{BR}(B \rightarrow~bH)$"
axisLabels["xibpw"] = r"$\mathrm{BR}(Q \rightarrow~qW)$"
axisLabels["xibph"] = r"$\mathrm{BR}(Q \rightarrow~qH)$"
axisLabels["xibpz"] = r"$\mathrm{BR}(B \rightarrow~bZ)$"
axisLabels["xitpw"] = r"$\mathrm{BR}(T \rightarrow~bW)$"
axisLabels["xitph"] = r"$\mathrm{BR}(T \rightarrow~tH)$"
axisLabels["xitpz"] = r"$\mathrm{BR}(T \rightarrow~tZ)$"
axisLabels["kappa"] = r"$\kappa$"
axisLabels["KT"] = r"$\kappa$"
axisLabels["mtp"] = r"$M_{T^\prime}$ (GeV)"
#axisLabels["mtp"] = "$M_Q$ (GeV)"
axisLabels["mbp"] = r"$M_{B^\prime}$ (GeV)"
axisLabels["mx"] = r"$M_Q$ (GeV)"
axisLabels["mb4"] = r"$M_{B^\prime}$ (GeV)"
# DM
axisLabels["mXd"] = r"$M_\mathrm{DM}$ (GeV)"
axisLabels["mXm"] = r"$M_\mathrm{DM}$ (GeV)"
axisLabels["gVq"] = r"$g_q$"
axisLabels["gVl"] = r"$g_l$"
axisLabels["gVXd"] = r"$g_{DM}$"
# Zprime
axisLabels["mY1"] = r"$M_{Z^\prime}$ (GeV)"
axisLabels["mzp"] = r"$M_{Z^\prime}$ (GeV)"
# top colour
axisLabels["mZp"] = r"$M_{Z^\prime}$ (GeV)"
axisLabels["cotH"] = r"$\cot\theta_\mathrm{H}$"
axisLabels["GoM"] = r"$\Gamma_{Z^\prime}/M_{Z^\prime}$"
# B-L
axisLabels["g1p"] = r"$g_1^{\prime}$"
axisLabels["sa"] = r"$\sin\alpha$"
#axisLabels["mh2"] = r"$M_{h_2}$ (GeV)"
# TFHM
axisLabels["tsb"] = r"$\theta_{sb}$"
axisLabels["gzpmzp"] = r"$g_X \times \mathrm{TeV}/ M_{Z^\prime}$"
# LQ
axisLabels["mlq"] = r"$M_{LQ}$ (GeV)"
# Heavy Neutrinos
axisLabels["VeN1"] = r"$V_{e_\nu}$"
axisLabels["MN1"] = r"$M_{\nu_H}$ (GeV)"
# 2HDM be careful, beta definitions may change between Ken Lane's and everyone else's conventions.
axisLabels["mh3"] = r"$M_A$ (GeV)"
axisLabels["mh2"] = r"$M_{H}$ (GeV)"
axisLabels["mhc"] = r"$M_{H^\pm}$ (GeV)"
axisLabels["tanbeta"] = r"$\tan\beta$"
axisLabels["sinbma"] = r"$\sin(\beta-\alpha)$"
axisLabels["cosbma"] = r"$\cos(\beta-\alpha)$"
# Kens Gildener-Weinberg thing
#axisLabels["mh3"] = "$M_A = M_{H^\pm}$ (GeV)"
axisLabels["mH02"] = r"$M_{H}$ (GeV)"
# 2HDM+a
axisLabels["mh4"] = r"$M_a$ (GeV)"
axisLabels["sinp"] = r"$\sin\theta$"
# ALPS
axisLabels["max"] = r"$M_\mathrm{ALP}$ (GeV)"
axisLabels["CaPhi"] = r"$c_\mathrm{t}$"
axisLabels["CGtil"] = r"$c_{\tilde{\mathrm{g}}}$"
axisLabels["CG"] = r"$c_{\mathrm{agg}}$"
axisLabels["malp"] = r"$M_{ALP}$ (GeV)"
axisLabels["caa"] = r"$c_{\gamma\gamma}/\Lambda$ (TeV$^{-1}$)"
axisLabels["cah"] = r"$c_{ah}/\Lambda$ (TeV$^{-1}$)"
axisLabels["gpl"] = r"$c_{ee}/\Lambda$ (TeV$^{-1}$)"
# general light scalar (mphi see below)
axisLabels["fscale"] = r"$\Lambda$ (GeV)"
# DE
axisLabels["c1"] = r"$C_1$"
axisLabels["c2"] = r"$C_2$"
axisLabels["mphi"] = r"$M_\phi$ (GeV)"
axisLabels["mscale"] = r"$M_\mathrm{SCALE}$ (GeV)"
# neutrino EFT
axisLabels["mn1"] = r"$m_N$ (GeV)"
axisLabels["lambda"] = r"$\Lambda$ (GeV)"
axisLabels["clnh"] = r"$\alpha_{LNH}$"
axisLabels["cnnh"] = r"$\alpha_{NNH}$"
axisLabels["cna"] = r"$\alpha_{NA}$"
# SUSY/SLHA
axisLabels["1000022"] = r"$M(\tilde{\chi}_1^0)$ (GeV)"
axisLabels["1000023"] = r"$M(\tilde{\chi}_2^0)$ (GeV)"
axisLabels["1000024"] = r"$M(\tilde{\chi}_1^+)$ (GeV)"
axisLabels["1000025"] = r"$M(\tilde{\chi}_3^0)$ (GeV)"
axisLabels["1000035"] = r"$M(\tilde{\chi}_4^0)$ (GeV)"
# Dark Mesons
axisLabels["PionMass"] = r"$m_{\pi_D}$ (GeV)"
axisLabels["FermionEta"] = r"$\eta$"
# type II seesaw
axisLabels["mdpp"] = r"$M_{{\Delta}^{\pm\pm}}$~[GeV]"
axisLabels["gap"] = r"$\Delta_M=M_{\Delta^\pm}-M_{\Delta^{\pm\pm}}$~[GeV]"
# SigmaSM (Higgs triplet)
axisLabels["x0"] = r"$x_0$~[GeV]"
axisLabels["m0"] = r"$M_H$~[GeV]"
axisLabels["a2"] = r"$a_2$"
axisLabels["b4"] = r"$b_4$"
# LeptoBaryons
axisLabels["gB"] = r"$g_\mathrm{B}$"
axisLabels["MCHI"] = r"$M_\chi$~[GeV]"
axisLabels["MZB"] = r"$M_{Z_\mathrm{B}}$~[GeV]"
axisLabels["MHB"] = r"$M_{h_\mathrm{B}}$~[GeV]"
return axisLabels
return axisLabels