Measurements of a LYSO crystal array from threshold to 100 MeV

TL;DR

This paper presents detailed measurements of a LYSO crystal array's light yield, uniformity, and energy resolution across a range of energies up to 100 MeV, demonstrating significant improvements for calorimeter applications.

Contribution

The study provides new high-precision measurements of LYSO crystal performance, including energy resolution improvements over previous generations, for use in compact electromagnetic calorimeters.

Findings

Energy resolution at 70 MeV is 1.52%

Crystals show excellent response uniformity

Energy resolution surpasses previous LYSO results

Abstract

We report measurements of ten custom-made high-homogeneity LYSO crystals. The investigation is motivated by the need for a compact, high-resolution, and fast electromagnetic calorimeter for a new rare pion decay experiment. Each $2.5\times 2.5 \times 18$ cm$^3$ crystal was first characterized for general light yield properties and then its longitudinal response uniformity and energy resolution were measured using low-energy gamma sources. The ten crystals were assembled as an array and subjected to a 30 - 100 MeV positron beam with excellent momentum definition. The energy and timing resolutions were measured as a function of energy, and the spatial resolution was determined at 70 MeV. An additional measurement using monoenergetic 17.6 MeV gammas produced through a p-Li resonance was later made after the photosensors used in positron testing were improved. As an example of the results, the energy resolution at 70 MeV of 1.52 $\pm$ 0.03% is more than two times better than reported results using previous generation LYSO crystals.