Misaligned jets from Sgr A* and the origin of Fermi/eROSITA bubbles

Abstract

One of the leading explanations for the origin of Fermi Bubbles is a past jet activity in the Galactic center supermassive black hole Sgr A*. The claimed jets are often assumed to be perpendicular to the Galactic plane. Motivated by the orientation of pc-scale nuclear stellar disk and gas streams, and a low inclination of the accretion disk around Sgr A* inferred by the Event Horizon Telescope, we perform hydrodynamical simulations of nuclear jets significantly tilted relative to the Galactic rotation axis. The observed axisymmetry and hemisymmetry (north-south symmetry) of Fermi/eROSITA bubbles (FEBs) due to quasi-steady jets in Sgr A* can be produced if the jet had a super-Eddington power ( 5× 1044 erg s-1) for a short time (jet active period 6 kyr) for a reasonable jet opening angle ( 10). Such powerful explosions are, however, incompatible with the observed O VIII/O VII line ratio towards the bubbles, even after considering electron-proton temperature non-equilibrium. We argue that the only remaining options for producing FEBs are i) a low-luminosity (≈ 1040.5-41 erg s-1)) magnetically dominated jet or accretion wind from the Sgr A*, and ii) a SNe or TDE driven wind of a similar luminosity from the Galactic center.

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