A Large Area LaBr3/NaI Phoswich for Hard X-ray Astronomy

TL;DR

This paper reports on a large LaBr3/NaI phoswich detector with improved energy resolution, uniformity, and pulse shape discrimination, suitable for detecting bright transient X-ray sources in astronomy.

Contribution

It presents the design, construction, and testing of the largest LaBr3/NaI phoswich detector, demonstrating enhanced performance for hard X-ray astronomy applications.

Findings

Energy resolution of 10.6% at 60 keV

Excellent uniformity across the detector surface

Effective pulse shape discrimination due to decay time differences

Abstract

In terms of energy resolution, temporal response to burst events, and thermal stability, lanthanum bromide doped with Ce is a much better choice than the traditional NaI(Tl) scintillator for hard X-ray astronomy. We present the test results of a phoswich detector with a diameter of 101.6 mm consisting of 6 mm thick LaBr3:Ce and 40 mm thick NaI(Tl), which is the largest one of this type reported so far. The measured energy resolution is 10.6% at 60 keV, varying inversely proportional to the square root of the energy, and the energy nonlinearity is found to be less than 1%, as good as those of smaller phoswiches. The coupled scintillators and phototube also show excellent uniformity across the detecting surface, with a deviation of 0.7% on the pulse amplitude produced by 60 keV gamma-rays. Thanks to the large ratio of light decay times of NaI(Tl) and LaBr3:Ce, 250 ns vs. 16 ns, pulse shape discrimination is much easier for this combination than for NaI(Tl)/CsI(Na). As the light decay time of LaBr3:Ce is about 15 times faster than that of NaI(Tl), this phoswich is more suitable for detection of bright, transient sources such as gamma-ray bursts and soft gamma-ray repeaters. The internal activity of lanthanum produces a count rate of about 6 counts/s at 37.5 keV in the detector. This peak could be used for in-flight spectral calibration and gain correction.