# In-orbit Performance of ME onboard Insight-HXMT in the first 5 years

**Authors:** Ying Tan (1), Xuelei Cao (1), Weichun Jiang (1), Xiaobo Li (1), Bin, Meng (1), Wanchang Zhang (1), Sheng Yang (1), Tao Luo (1), Yudong Gu (1),, Liang Sun (1), Xiaojing Liu (1), Yuanyuan Du (1), Jiawei Yang (1), Yanjun Xu, (1), Jinyuan Liao (1), Yupeng Xu (1), Fangjun Lu (1), Liming Song (1) and, Shuangnan Zhang (1)

arXiv: 2303.00339 · 2023-03-02

## TL;DR

This paper evaluates the five-year in-orbit performance of the ME X-ray telescope onboard Insight-HXMT, demonstrating its stability and gradual gain increase, with most components functioning normally and no significant efficiency loss.

## Contribution

It provides a comprehensive analysis of the long-term stability and performance evolution of the ME instrument in space, using calibration sources and astronomical observations.

## Key findings

- 742 cm2 of Si-PIN pixels remained operational after 5 years
- ME gain increased by 1.43% over five years
- Detection efficiency showed no significant variation

## Abstract

Introduction: The Medium Energy X-ray telescope (ME) is a collimated X-ray telescope onboard the Insight hard X-ray modulation telescope (Insight-HXMT) satellite. It has 1728 Si-PIN pixels readout using 54 low noise application-specific integrated circuits (ASICs). ME covers the energy range of 5-30 keV and has a total detection area of 952 cm2. The typical energy resolution of ME at the beginning of the mission is 3 keV at 17.8 keV (Full Width at Half Maximum, FWHM) and the time resolution is 255 us. In this study, we present the in-orbit performance of ME in its first 5 years of operation. Methods: The performance of ME was monitored using onboard radioactive sources and astronomical X-ray objects. ME carries six 241Am radioactive sources for onboard calibration, which can continuously illuminate the calibration pixels. The long-term performance evolution of ME can be quantified using the properties of the accumulated spectra of the calibration pixels. In addition, observations of the Crab Nebula and the pulsar were used to check the long-term evolution of the detection efficiency as a function of energy. Conclusion: After 5 years of operation, 742 cm2 of the Si-PIN pixels were still working normally. The peak positions of 241Am emission lines gradually shifted to the high energy region, implying a slow increase in ME gain of 1.43%. A comparison of the ME spectra of the Crab Nebula and the pulsar shows that the E-C relations and the redistribution matrix file are still acceptable for most data analysis works, and there is no detectable variation in the detection efficiency.

## Full text

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## Figures

12 figures with captions in the complete paper: https://tomesphere.com/paper/2303.00339/full.md

## References

28 references — full list in the complete paper: https://tomesphere.com/paper/2303.00339/full.md

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Source: https://tomesphere.com/paper/2303.00339