Frontiers in Astronomy and Space Sciences (Nov 2023)

The high energy X-ray probe: resolved X-ray populations in extragalactic environments

  • Bret D. Lehmer,
  • Bret D. Lehmer,
  • Kristen Garofali,
  • Kristen Garofali,
  • Breanna A. Binder,
  • Francesca Fornasini,
  • Neven Vulic,
  • Andreas Zezas,
  • Andreas Zezas,
  • Andreas Zezas,
  • Ann Hornschemeier,
  • Margaret Lazzarini,
  • Hannah Moon,
  • Toni Venters,
  • Daniel Wik,
  • Mihoko Yukita,
  • Matteo Bachetti,
  • Javier A. García,
  • Javier A. García,
  • Brian Grefenstette,
  • Kristin Madsen,
  • Kaya Mori,
  • Daniel Stern

DOI
https://doi.org/10.3389/fspas.2023.1293918
Journal volume & issue
Vol. 10

Abstract

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We construct simulated galaxy data sets based on the High Energy X-ray Probe (HEX-P) mission concept to demonstrate the significant advances in galaxy science that will be yielded by the HEX-P observatory. The combination of high spatial resolution imaging (<20 arcsec FWHM), broad spectral coverage (0.2–80 keV), and sensitivity superior to current facilities (e.g., XMM-Newton and NuSTAR) will enable HEX-P to detect hard (4–25 keV) X-ray emission from resolved point-source populations within ∼800 galaxies and integrated emission from ∼6,000 galaxies out to 100 Mpc. These galaxies cover wide ranges of galaxy types (e.g., normal, starburst, and passive galaxies) and properties (e.g., metallicities and star-formation histories). In such galaxies, HEX-P will: 1) provide unique information about X-ray binary populations, including accretor demographics (black hole and neutron stars), distributions of accretion states and state transition cadences; 2) place order-of-magnitude more stringent constraints on inverse Compton emission associated with particle acceleration in starburst environments; and 3) put into clear context the contributions from X-ray emitting populations to both ionizing the surrounding interstellar medium in low-metallicity galaxies and heating the intergalactic medium in the z > 8 Universe.

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