English

The Advanced X-ray Imaging Satellite

High Energy Astrophysical Phenomena 2019-03-20 v2 Instrumentation and Methods for Astrophysics

Abstract

Much of the baryonic matter in the Universe, including the most active and luminous sources, are best studied in the X-ray band. Key advances in X-ray optics and detectors have paved the way for the Advanced X-ray Imaging Satellite (AXIS), a Probe-class mission that is a major improvement over Chandra, which has generated a steady stream of important discoveries for the past 2 decades. AXIS can be launched in the late 2020s and will transform our understanding in several major areas of astrophysics, including the growth and fueling of supermassive black holes, galaxy formation and evolution, the microphysics of cosmic plasmas, the time-variable universe, and a wide variety of cutting-edge studies. Relative to Chandra, the AXIS PSF is nearly twice as sharp on-axis; its field of view for subarcsecond imaging 70 times larger by area; its effective area at 1 keV is 10 times larger. The low-Earth orbit ensures a low and stable detector background, resulting in 50 times greater sensitivity than Chandra for extended sources. AXIS has a rapid repointing response with operations similar to Swift, but is 100 times more sensitive for time-domain science. These capabilities open up a vast discovery space and complement the next generation of astronomical observatories. A high-spectral-resolution mission (Athena) operating at the same time as a high-angular-resolution mission (AXIS) greatly increases the range of scientific discovery. AXIS will use lightweight X-ray optics made of thin single-crystal silicon mirrors developed at NASA Goddard. The detector array builds on a long legacy of X-ray CCD and provides improved photon localization, much faster readout time, and broader energy band. The estimated mission costs are consistent with the $1B Probe mission cost guideline.

Keywords

Cite

@article{arxiv.1903.04083,
  title  = {The Advanced X-ray Imaging Satellite},
  author = {Richard F. Mushotzky and James Aird and Amy J. Barger and Nico Cappelluti and George Chartas and Lia Corrales and Rafael Eufrasio and Andrew C. Fabian and Abraham D. Falcone and Elena Gallo and Roberto Gilli and Catherine E. Grant and Martin Hardcastle and Edmund Hodges-Kluck and Erin Kara and Michael Koss and Hui Li and Carey M. Lisse and Michael Loewenstein and Maxim Markevitch and Eileen T. Meyer and Eric D. Miller and John Mulchaey and Robert Petre and Andrew J. Ptak and Christopher S. Reynolds and Helen R. Russell and Samar Safi-Harb and Randall K. Smith and Bradford Snios and Francesco Tombesi and Lynne Valencic and Stephen A. Walker and Brian J. Williams and Lisa M. Winter and Hiroya Yamaguchi and William W. Zhang and Jon Arenberg and Niel Brandt and David N. Burrows and Markos Georganopoulos and Jon M. Miller and Colin A. Norman and Piero Rosati},
  journal= {arXiv preprint arXiv:1903.04083},
  year   = {2019}
}

Comments

A Probe-class mission study commissioned by NASA for the NAS Astro2020 Decadal Survey. Cost section redacted. 66 pages, 41 figures. v2: minor fixes

R2 v1 2026-06-23T08:03:45.496Z