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Main Authors: Alves, Alexandre, Almeida, Eduardo da Silva, Mesquita, Igor Neiva
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2402.10273
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author Alves, Alexandre
Almeida, Eduardo da Silva
Mesquita, Igor Neiva
author_facet Alves, Alexandre
Almeida, Eduardo da Silva
Mesquita, Igor Neiva
contents The search for double Higgs production in $b\bar{b}W^+W^-$, where both $W$ bosons decay to leptons, has been rehabilitated as a good option to look for that key process to the Standard Model scalar sector study in the LHC. The missing neutrinos, however, hinder the reconstruction of useful information like the Higgs pair mass, which is very sensitive to the trilinear Higgs self-coupling. We present a solution to that problem using a Variational Autoencoder for Regression (VAER) to reconstruct the Higgs and top pairs decays $hh,t\bar{t}\to b\bar{b}W^+W^-\to b\bar{b}\ell^+\ell^{\prime -}ν_\ell\barν_{\ell^\prime}$. The algorithm predicts the invariant mass of non-resonant $hh$ irrespective of the trilinear coupling, even for events whose Higgs self-couplings were never presented to it. VAER is also able to identify a new Higgs resonance in an unsupervised way, showing generalization power for events not presented in its training phase. Finally, we demonstrate that VAER prediction is as useful to statistical inference as ground truth simulated distributions by computing a $χ^2$ between trilinear coupling hypotheses based on binned invariant mass distributions of $b\bar{b}\ell^+\ell^{\prime -}ν_\ell\barν_{\ell^\prime}$.
format Preprint
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institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Variational Autoencoders for Regression: Recovering Fully Leptonic $b\bar{b}W^+W^-$ in Di-Higgs Searches
Alves, Alexandre
Almeida, Eduardo da Silva
Mesquita, Igor Neiva
High Energy Physics - Phenomenology
The search for double Higgs production in $b\bar{b}W^+W^-$, where both $W$ bosons decay to leptons, has been rehabilitated as a good option to look for that key process to the Standard Model scalar sector study in the LHC. The missing neutrinos, however, hinder the reconstruction of useful information like the Higgs pair mass, which is very sensitive to the trilinear Higgs self-coupling. We present a solution to that problem using a Variational Autoencoder for Regression (VAER) to reconstruct the Higgs and top pairs decays $hh,t\bar{t}\to b\bar{b}W^+W^-\to b\bar{b}\ell^+\ell^{\prime -}ν_\ell\barν_{\ell^\prime}$. The algorithm predicts the invariant mass of non-resonant $hh$ irrespective of the trilinear coupling, even for events whose Higgs self-couplings were never presented to it. VAER is also able to identify a new Higgs resonance in an unsupervised way, showing generalization power for events not presented in its training phase. Finally, we demonstrate that VAER prediction is as useful to statistical inference as ground truth simulated distributions by computing a $χ^2$ between trilinear coupling hypotheses based on binned invariant mass distributions of $b\bar{b}\ell^+\ell^{\prime -}ν_\ell\barν_{\ell^\prime}$.
title Variational Autoencoders for Regression: Recovering Fully Leptonic $b\bar{b}W^+W^-$ in Di-Higgs Searches
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2402.10273