The Warm-Hot Disk-Halo Interface Below the Perseus Spiral Arm (2502.05778v1)

Abstract: The Milky Way's disk-halo interface mediates energy and mass exchange between the interstellar thin disk and the halo. In the first detailed study of the Perseus arm's disk-halo interface, we combine HST/STIS and COS absorption spectra toward 6 stars and 23 AGNs projected behind a narrow section (95 degree < l <145 degree, -46 degree < b <0 degree), providing a unique dataset that bridges the disk and its extended vertical structure in these directions. We detect S II, Si IV, and C IV absorption, along with HI 21 cm emission, within -70 pc to -3.3 kpc from the mid-plane. The arm's southern vertical structure exhibits complexity beyond simple exponential scaling: HI and S II column densities sharply decline with height up to 1.5 kpc before flattening, while high ion (Si IV and C IV) column densities remain relatively constant. In this region, where warm neutral medium (WNM) dominates, S II and the high ions show similar kinematics, and we find a remarkably uniform CIV/SiIV ratio (<C IV/Si IV> = 2.5 pm 0.5) within -0.9 to -3.25 kpc. Both the kinematic correspondence and high-ion ratio are consistent with the high ions probing turbulent mixing layers at the interfaces between warm/cool and hot gas phases. AGN sightlines reveal minimal circumgalactic medium (CGM) contribution in the low-velocity gas at |v_{LSR}|< 100 km/s, suggesting the observed properties may be attributed to previous fountain activity.