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Main Authors: Nishimura, Satsuki, Miyao, Coh, Otsuka, Hajime
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2409.10023
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author Nishimura, Satsuki
Miyao, Coh
Otsuka, Hajime
author_facet Nishimura, Satsuki
Miyao, Coh
Otsuka, Hajime
contents We propose a reinforcement learning-based search strategy to explore new physics beyond the Standard Model. The reinforcement learning, which is one of machine learning methods, is a powerful approach to find model parameters with phenomenological constraints. As a concrete example, we focus on a minimal axion model with a global $U(1)$ flavor symmetry. Agents of the learning succeed in finding $U(1)$ charge assignments of quarks and leptons solving the flavor and cosmological puzzles in the Standard Model, and find more than 150 realistic solutions for the quark sector taking renormalization effects into account. For the solutions found by the reinforcement learning-based analysis, we discuss the sensitivity of future experiments for the detection of an axion which is a Nambu-Goldstone boson of the spontaneously broken $U(1)$. We also examine how fast the reinforcement learning-based searching method finds the best discrete parameters in comparison with conventional optimization methods. In conclusion, the efficient parameter search based on the reinforcement learning-based strategy enables us to perform a statistical analysis of the vast parameter space associated with the axion model from flavor.
format Preprint
id arxiv_https___arxiv_org_abs_2409_10023
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Reinforcement learning-based statistical search strategy for an axion model from flavor
Nishimura, Satsuki
Miyao, Coh
Otsuka, Hajime
High Energy Physics - Phenomenology
Machine Learning
High Energy Physics - Theory
We propose a reinforcement learning-based search strategy to explore new physics beyond the Standard Model. The reinforcement learning, which is one of machine learning methods, is a powerful approach to find model parameters with phenomenological constraints. As a concrete example, we focus on a minimal axion model with a global $U(1)$ flavor symmetry. Agents of the learning succeed in finding $U(1)$ charge assignments of quarks and leptons solving the flavor and cosmological puzzles in the Standard Model, and find more than 150 realistic solutions for the quark sector taking renormalization effects into account. For the solutions found by the reinforcement learning-based analysis, we discuss the sensitivity of future experiments for the detection of an axion which is a Nambu-Goldstone boson of the spontaneously broken $U(1)$. We also examine how fast the reinforcement learning-based searching method finds the best discrete parameters in comparison with conventional optimization methods. In conclusion, the efficient parameter search based on the reinforcement learning-based strategy enables us to perform a statistical analysis of the vast parameter space associated with the axion model from flavor.
title Reinforcement learning-based statistical search strategy for an axion model from flavor
topic High Energy Physics - Phenomenology
Machine Learning
High Energy Physics - Theory
url https://arxiv.org/abs/2409.10023