Ground Calibration of Solar X-ray Monitor On-board Chandrayaan-2 Orbiter

TL;DR

This paper details the comprehensive ground calibration of the Solar X-ray Monitor on Chandrayaan-2, ensuring accurate solar and lunar X-ray measurements through extensive laboratory testing of its spectral response and performance.

Contribution

It presents the first detailed calibration results of the XSM instrument, including response matrix parameters and performance under various conditions.

Findings

Calibration of gain, spectral redistribution, and effective area completed.

XSM maintains spectral performance at high incident flux.

Dead-time and pile-up characteristics characterized.

Abstract

Chandrayaan-2, the second Indian mission to the Moon, carries a spectrometer called the Solar X-ray Monitor (XSM) to perform soft X-ray spectral measurements of the Sun while a companion payload measures the fluorescence emission from the Moon. Together these two payloads will provide quantitative estimates of elemental abundances on the lunar surface. XSM is also expected to provide significant contributions to the solar X-ray studies with its highest time cadence and energy resolution spectral measurements. For this purpose, the XSM employs a Silicon Drift Detector and carries out energy measurements of incident photons in the 1 -- 15 keV range with a resolution of less than 180 eV at 5.9 keV, over a wide range of solar X-ray intensities. Extensive ground calibration experiments have been carried out with the XSM using laboratory X-ray sources as well as X-ray beam-line facilities to determine the instrument response matrix parameters required for quantitative spectral analysis. This includes measurements of gain, spectral redistribution function, and effective area, under various observing conditions. The capability of the XSM to maintain its spectral performance at high incident flux as well as the dead-time and pile-up characteristics have also been investigated. The results of these ground calibration experiments of the XSM payload are presented in this article.