Modeling of Light Production in Inorganic Scintillators

B. Kreider; I. Cox; R. Grzywacz; J. M. Allmond; A. Augustyn; N. Braukman; P. Brionnet; A. Esmaylzadeh; J. Fischer; N. Fukuda; G. Garcia De Lorenzo; S. Go; S. Hanai; D. Hoskins; N. Imai; T. T. King; N. Kitamura; K. Kolos; A. Korgul; C. Mazzocchi; S. Nishimura; K. Nishio; V. Phong; T. Ruland; K. P. Rykaczewski; A. Skruch; Z. Y. Xu; R. Yokoyama

arXiv:2508.15513·physics.ins-det·August 22, 2025

Modeling of Light Production in Inorganic Scintillators

B. Kreider, I. Cox, R. Grzywacz, J. M. Allmond, A. Augustyn, N. Braukman, P. Brionnet, A. Esmaylzadeh, J. Fischer, N. Fukuda, G. Garcia De Lorenzo, S. Go, S. Hanai, D. Hoskins, N. Imai, T. T. King, N. Kitamura, K. Kolos, A. Korgul, C. Mazzocchi, S. Nishimura, K. Nishio, V. Phong

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TL;DR

This paper develops a model for inorganic scintillator light output in response to heavy ions, emphasizing the role of delta electrons, to improve experimental planning in nuclear physics.

Contribution

It introduces a new framework based on Birks and Meyer-Murray models to accurately predict scintillator responses to energetic heavy ions, including delta electron effects.

Findings

01

Model accurately predicts light output for various heavy ions.

02

Delta electrons significantly influence scintillator response at high energies.

03

Quantitative estimates of delta ray effects on light output are provided.

Abstract

In recent experiments, inorganic scintillators have been used to study the decays of exotic nuclei, providing an alternative to silicon detectors and enabling measurements that were previously impossible. However, proper use of these materials requires us to understand and quantify the scintillation process. In this work, we propose a framework based on that of Birks [Proc. Phys. Soc. A 64, 874] and Meyer and Murray [Phys. Rev. 128, 98] to model the light output of inorganic scintillators in response to beams of energetic heavy ions over a broad range of energies. Our model suggests that, for sufficiently heavy ions at high energies, the majority of the light output is associated with the creation of delta electrons, which are induced by the passage of the beam through the material. These delta electrons dramatically impact the response of detection systems when subject to ions with…

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Taxonomy

TopicsRadiation Detection and Scintillator Technologies · Neutrino Physics Research · Nuclear physics research studies