The Astrophysical Journal (Jan 2024)

The Rockets for Extended-source X-ray Spectroscopy Instrument Design

  • Drew M. Miles,
  • Randall L. McEntaffer,
  • James H. Tutt,
  • Logan Baker,
  • Ross McCurdy,
  • Bailey Myers,
  • Bridget O’Meara,
  • Joseph Weston

DOI
https://doi.org/10.3847/1538-4357/ad58d4
Journal volume & issue
Vol. 971, no. 2
p. 171

Abstract

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The Rockets for Extended-source X-ray Spectroscopy (tREXS) are a series of suborbital rocket payloads designed to collect spectral emission from extended astronomical sources of soft X-rays. The tREXS spectrograph uses mechanical beam-shaping modules and reflection gratings to passively focus and then disperse incident X-rays to an array of Teledyne/e2v CIS 113 CMOS X-ray sensors. Designed to achieve a moderate spectral resolution, R ⪆ 50, from ≈15 to 40 Å over a large field of view (>10 deg ^2 ), the tREXS instrument is sensitive to line emission from key ion species over the soft-X-ray band. Here we present the complete end-to-end design of the tREXS spectrograph and discuss its significance and expected performance, using simulated observations of the Cygnus Loop supernova remnant and an enhanced region in the soft X-ray background.

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