Signatures of gas flows-I: Connecting the kinematics of the HI circumgalactic medium to galaxy rotation
Abstract
The CGM hosts many physical processes with different kinematic signatures that affect galaxy evolution. We address the CGM-galaxy kinematic connection by quantifying the fraction of HI that is aligned with galaxy rotation with the equivalent width co-rotation fraction, f EWcorot. Using 70 quasar sightlines having HST/COS HI absorption (12< (N(HI)/ cm-2)<20) within 5R vir of z<0.6 galaxies we find that f EWcorot increases with increasing HI column density. f EWcorot is flat at 0.6 within R vir and decreases beyond R vir to f EWcorot0.35. f EWcorot also has a flat distribution with azimuthal and inclination angles within R vir, but decreases by a factor of two outside of R vir for minor axis gas and by a factor of two for edge-on galaxies. Inside R vir, co-rotation dominated HI is located within 20 deg of the major and minor axes. We surprisingly find equal amounts of HI absorption consistent with co-rotation along both major and minor axes within R vir. However, this co-rotation disappears along the minor axis beyond R vir, suggesting that if this gas is from outflows, then it is bound to galaxies. f EWcorot is constant over two decades of halo mass, with no decrease for log(M h/M)>12 as expected from simulations. Our results suggest that co-rotating gas flows are best found by searching for higher column density gas within R vir and near the major and minor axes.
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