SpaceMath v.2.0 with Machine Learning. A Mathematica package for Beyond the Standard Model parameter space searches

Abstract

SpaceMath v.2.0 with Machine Learning is an extension of the previous version which we implement observables related with LHC Higgs boson data and their projections for the High Luminosity and High Energy Large Hadron Collider. In this version we implemented processes with Flavor-Changing Neutral Currents at tree and one-loop level, namely, i) Radiative decays ij γ, ii) i j k k decays (i=τ,\,μ, j,\,k=μ,\,e, with i ≠j ≠k) and iii) anomalous magnetic dipole moment of the muon δ aμ. SpaceMath v.2.0 is able to find allowed regions for free parameters of models with both real and complex singlets and real and complex doublets using the processes previously mentioned within a friendly interface and an intuitive environment in which the user enters the couplings symbolically, sets parameters and execute Mathematica in the traditional way. As result, both tables as plots with values and areas agree with experimental data are generated. We present examples using SpaceMath v.2.0 to analyze the free Two-Higgs Doublet Model of type III parameter space, step by step, in order to start new users in a fast and efficient way. Finally, we have implemented in this version of SpaceMath algorithms of Machine Learning to generate specific Benchmark Points to be used directly in numerical evaluations of calculations of physical observables.