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The evolution of galaxies and clusters at high spatial resolution with AXIS

Authors :
Russell, H. R.
Lopez, L. A.
Allen, S. W.
Chartas, G.
Choudhury, P. P.
Dupke, R. A.
Fabian, A. C.
Flores, A. M.
Garofali, K.
Hodges-Kluck, E.
Koss, M. J.
Lanz, L.
Lehmer, B. D.
Li, J. -T.
Maksym, W. P.
Mantz, A. B.
McDonald, M.
Miller, E. D.
Mushotzky, R. F.
Qiu, Y.
Reynolds, C. S.
Tombesi, F.
Tozzi, P.
Trindade-Falcao, A.
Walker, S. A.
Wong, K. -W.
Yukita, M.
Zhang, C.
Publication Year :
2023

Abstract

Stellar and black hole feedback heat and disperse surrounding cold gas clouds, launching gas flows off circumnuclear and galactic disks and producing a dynamic interstellar medium. On large scales bordering the cosmic web, feedback drives enriched gas out of galaxies and groups, seeding the intergalactic medium with heavy elements. In this way, feedback shapes galaxy evolution by shutting down star formation and ultimately curtailing the growth of structure after the peak at redshift 2-3. To understand the complex interplay between gravity and feedback, we must resolve both the key physics within galaxies and map the impact of these processes over large scales, out into the cosmic web. The Advanced X-ray Imaging Satellite (AXIS) is a proposed X-ray probe mission for the 2030s with arcsecond spatial resolution, large effective area, and low background. AXIS will untangle the interactions of winds, radiation, jets, and supernovae with the surrounding ISM across the wide range of mass scales and large volumes driving galaxy evolution and trace the establishment of feedback back to the main event at cosmic noon.<br />Comment: 29 pages, 18 figures; this white paper is part of a series commissioned for the AXIS Probe mission concept

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2311.07661
Document Type :
Working Paper