English

Classifying near-threshold enhancement using deep neural network

High Energy Physics - Phenomenology 2021-07-20 v1 High Energy Physics - Experiment Nuclear Theory

Abstract

One of the main issues in hadron spectroscopy is to identify the origin of threshold or near-threshold enhancement. Prior to our study, there is no straightforward way of distinguishing even the lowest channel threshold-enhancement of the nucleon-nucleon system using only the cross-sections. The difficulty lies in the proximity of either a bound or virtual state pole to the threshold which creates an almost identical structure in the scattering region. Identifying the nature of the pole causing the enhancement falls under the general classification problem and supervised machine learning using a feed-forward neural network is known to excel in this task. In this study, we discuss the basic idea behind deep neural network and how it can be used to identify the nature of the pole causing the enhancement. The applicability of the trained network can be explored by using an exact separable potential model to generate a validation dataset. We find that within some acceptable range of the cut-off parameter, the neural network gives high accuracy of inference. The result also reveals the important role played by the background singularities in the training dataset. Finally, we apply the method to nucleon-nucleon scattering data and show that the network was able to give the correct nature of pole, i.e. virtual pole for 1S0{}^1S_0 partial cross-section and bound state pole for 3S0{}^3S_0.

Keywords

Cite

@article{arxiv.2106.03453,
  title  = {Classifying near-threshold enhancement using deep neural network},
  author = {Denny Lane B. Sombillo and Yoichi Ikeda and Toru Sato and Atsushi Hosaka},
  journal= {arXiv preprint arXiv:2106.03453},
  year   = {2021}
}

Comments

10 pages, 4 figures, Contribution to the Proceedings for 8th Asia-Pacific Conference on Few-Body Problems in Physics (APFB2020), March 1-5 2021, Kanazawa, Japan

R2 v1 2026-06-24T02:54:10.909Z