Evolution of temperature-dependent charge transfer inefficiency correction for ACIS on the Chandra X-ray Observatory

Catherine E. Grant; Marshall W. Bautz; R. Nick Durham; Paul P. Plucinsky

doi:10.1117/12.2233424

18 July 2016 Evolution of temperature-dependent charge transfer inefficiency correction for ACIS on the Chandra X-ray Observatory

Catherine E. Grant, Marshall W. Bautz, R. Nick Durham, Paul P. Plucinsky

Author Affiliations +

Proceedings Volume 9905, Space Telescopes and Instrumentation 2016: Ultraviolet to Gamma Ray; 990545 (2016) https://doi.org/10.1117/12.2233424
Event: SPIE Astronomical Telescopes + Instrumentation, 2016, Edinburgh, United Kingdom

Abstract

As ACIS on the Chandra X-ray Observatory enters its seventeenth year of operation, it continues to perform well and produce spectacular scientific results. The response of ACIS has evolved over the lifetime of the observatory due to radiation damage and aging of the spacecraft. The ACIS instrument team developed a software tool which applies a correction to each X-ray event and mitigates charge transfer inefficiency (CTI) and spectral resolution degradation. The behavior of the charge traps that cause CTI are temperature dependent, however, and warmer temperatures reduce the effectiveness of the correction algorithm. As the radiator surfaces on Chandra age, ACIS cooling has become less efficient and temperatures can increase by a few degrees. A temperature-dependent component was added to the CTI correction algorithm in 2010. We present an evaluation of the effectiveness of this algorithm as the radiation damage and thermal environment continue to evolve and suggest updates to improve the calibration fidelity.

Citation Download Citation

Catherine E. Grant, Marshall W. Bautz, R. Nick Durham, and Paul P. Plucinsky "Evolution of temperature-dependent charge transfer inefficiency correction for ACIS on the Chandra X-ray Observatory", Proc. SPIE 9905, Space Telescopes and Instrumentation 2016: Ultraviolet to Gamma Ray, 990545 (18 July 2016); https://doi.org/10.1117/12.2233424

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KEYWORDS

Calibration

Sensors

Extreme ultraviolet

Synchrotron radiation

Radiometry

Vacuum ultraviolet

X-rays

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