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Autori principali: Chathirathas, Kierthika, Ferber, Torben, Kahlhoefer, Felix, Morandini, Alessandro
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2407.20329
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author Chathirathas, Kierthika
Ferber, Torben
Kahlhoefer, Felix
Morandini, Alessandro
author_facet Chathirathas, Kierthika
Ferber, Torben
Kahlhoefer, Felix
Morandini, Alessandro
contents Simulation-based inference (SBI) makes it possible to infer the parameters of a model from high-dimensional low-level features of the observed events. In this work we show how this method can be used to establish the presence of a weak signal on top of an unknown background, to discard background events and to determine the signal properties. The key idea is to use SBI methods to identify events that are similar to each other in the sense that they agree on the inferred model parameters. We illustrate this method for the case of axion-like particles decaying to photons at beam-dump experiments. For poor detector resolution the diphoton mass cannot be reliably reconstructed, so there is no simple high-level observable that can be used to perform a bump hunt. Since the SBI methods do not require explicit high-level observables, they offer a promising alternative to increase the sensitivity to new physics.
format Preprint
id arxiv_https___arxiv_org_abs_2407_20329
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Finding excesses in model parameter space
Chathirathas, Kierthika
Ferber, Torben
Kahlhoefer, Felix
Morandini, Alessandro
High Energy Physics - Phenomenology
High Energy Physics - Experiment
Simulation-based inference (SBI) makes it possible to infer the parameters of a model from high-dimensional low-level features of the observed events. In this work we show how this method can be used to establish the presence of a weak signal on top of an unknown background, to discard background events and to determine the signal properties. The key idea is to use SBI methods to identify events that are similar to each other in the sense that they agree on the inferred model parameters. We illustrate this method for the case of axion-like particles decaying to photons at beam-dump experiments. For poor detector resolution the diphoton mass cannot be reliably reconstructed, so there is no simple high-level observable that can be used to perform a bump hunt. Since the SBI methods do not require explicit high-level observables, they offer a promising alternative to increase the sensitivity to new physics.
title Finding excesses in model parameter space
topic High Energy Physics - Phenomenology
High Energy Physics - Experiment
url https://arxiv.org/abs/2407.20329