Illuminating M82: Simulating X-ray Emission from Galactic Winds in a Starburst Galaxy
Abstract
We generate mock X-ray observations from a suite of idealized high-resolution ( 4 pc), tall-box ( 2 × 2 × 8 kpc3) simulations of star formation driven galactic winds in an M82-like system, varying the spatial resolution as well as the strength and distribution of supernova (SN) energy injection. We compare our mock X-ray observations with deep Chandra observations of the hot plasma around M82. While the simulated total X-ray luminosity, LX, increases with resolution and when SNe feedback is spatially distributed, even in the best case scenario, our simulated LX is a factor of 50-100 lower than observed and the surface brightness profiles of X-ray emission, SX(z), fall off too quickly with distance from the galaxy. Past results were able to reproduce these observables and we discuss potential simulation differences that could explain this discrepancy. We make the first comparison of the X-ray spectrum of our simulations to observations and find that our simulated spectrum is too soft, with a deficit of hard X-ray photons at 1 keV. We discuss how physical processes missing from our simulations and prior work (e.g., thermal conduction and cosmic rays) could help resolve this discrepancy.
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