Machine Learning: Science and Technology (Jan 2024)

Deep learning based event reconstruction for cyclotron radiation emission spectroscopy

  • A Ashtari Esfahani,
  • S Böser,
  • N Buzinsky,
  • M C Carmona-Benitez,
  • R Cervantes,
  • C Claessens,
  • L de Viveiros,
  • M Fertl,
  • J A Formaggio,
  • J K Gaison,
  • L Gladstone,
  • M Grando,
  • M Guigue,
  • J Hartse,
  • K M Heeger,
  • X Huyan,
  • A M Jones,
  • K Kazkaz,
  • M Li,
  • A Lindman,
  • A Marsteller,
  • C Matthé,
  • R Mohiuddin,
  • B Monreal,
  • E C Morrison,
  • R Mueller,
  • J A Nikkel,
  • E Novitski,
  • N S Oblath,
  • J I Peña,
  • W Pettus,
  • R Reimann,
  • R G H Robertson,
  • L Saldaña,
  • M Schram,
  • P L Slocum,
  • J Stachurska,
  • Y-H Sun,
  • P T Surukuchi,
  • A B Telles,
  • F Thomas,
  • M Thomas,
  • L A Thorne,
  • T Thümmler,
  • L Tvrznikova,
  • W Van De Pontseele,
  • B A VanDevender,
  • T E Weiss,
  • T Wendler,
  • E Zayas,
  • A Ziegler

DOI
https://doi.org/10.1088/2632-2153/ad3ee3
Journal volume & issue
Vol. 5, no. 2
p. 025026

Abstract

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The objective of the cyclotron radiation emission spectroscopy (CRES) technology is to build precise particle energy spectra. This is achieved by identifying the start frequencies of charged particle trajectories which, when exposed to an external magnetic field, leave semi-linear profiles (called tracks) in the time–frequency plane. Due to the need for excellent instrumental energy resolution in application, highly efficient and accurate track reconstruction methods are desired. Deep learning convolutional neural networks (CNNs) - particularly suited to deal with information-sparse data and which offer precise foreground localization—may be utilized to extract track properties from measured CRES signals (called events) with relative computational ease. In this work, we develop a novel machine learning based model which operates a CNN and a support vector machine in tandem to perform this reconstruction. A primary application of our method is shown on simulated CRES signals which mimic those of the Project 8 experiment—a novel effort to extract the unknown absolute neutrino mass value from a precise measurement of tritium β ^− -decay energy spectrum. When compared to a point-clustering based technique used as a baseline, we show a relative gain of 24.1% in event reconstruction efficiency and comparable performance in accuracy of track parameter reconstruction.

Keywords