Experimental determination of BSM triple Higgs couplings at the HL-LHC with neural networks
Markus Frank, Sven Heinemeyer, Margarete Mühlleitner, Kateryna Radchenko
A
bstract
The shape of the Higgs potential is modified by the presence of additional scalar fields, as predicted in many Beyond-Standard-Model (BSM) scenarios. In such cases, deviations in the Higgs self-interactions — in particular the trilinear Higgs couplings — could serve to disentangle the physics beyond the Standard Model (SM). While the SM predicts only one trilinear Higgs coupling, extended scalar sectors allow for additional self-interactions that can manifest themselves in Higgs pair production, via the
s
-channel contribution of a heavy 𝒞𝒫-even scalar
H
. We present the first sensitivity study to such a BSM trilinear scalar coupling using machine learning. Specifically, we train a neural network on the invariant mass distributions of Higgs pair production at the HL-LHC to extract