The hot circumgalactic medium of the Milky Way: evidence for super-virial, virial, and sub-virial temperature, non-solar chemical composition, and non-thermal line broadening

Abstract

For the first time, we present the simultaneous detection and characterization of three distinct phases at >105 K in z=0 absorption, using deep Chandra observations toward Mrk 421. The extraordinarily high signal-to-noise ratio (≥slant60) of the spectra has allowed us to detect a hot phase of the Milky Way circumgalactic medium (CGM) at 3.2+1.5-0.5× 107 K, coexisting with a warm-hot phase at 1.50.1×106 K and a warm phase at 3.00.4×105 K. The warm-hot phase is at the virial temperature of the Galaxy, and the warm phase may have cooled from the warm-hot phase, but the super-virial hot phase remains a mystery. We find that [C/O] in the warm and warm-hot phases, [Mg/O] in the warm-hot phase and [Ne/O] in the hot phase are super-solar, and the hot and the warm-hot phases are α-enhanced. Non-thermal line broadening is evident in the warm-hot and the hot phases and it dominates the total line broadening. Our results indicate that the >105 K CGM is a complex ecosystem. It provides insights on the thermal and chemical history of the Milky Way CGM, and theories of galaxy evolution.

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