Chandra Observation of the Edge-on Spiral NGC 5775: Probing the Hot Galactic Disk/Halo Connection

Abstract

We study the edge-on galaxy NGC 5775, utilizing a 58.2 ks Chandra ACIS-S observation together with complementary HST ACS, Spitzer IRAC and other multi-wavelength data sets. This edge-on galaxy, with its disk-wide active star formation, is particularly well-suited for studying the disk/halo interaction on sub-galactic scales. We detect 27 discrete X-ray sources within the D25 region of the galaxy, including an ultra-luminous source with a 0.3-7 keV luminosity of 7×1040 ergs s-1. The source-removed diffuse X-ray emission shows several prominent extraplanar features, including a 10 kpc diameter ``shell-like'' feature and a ``blob'' reaching a projected distance of 25 kpc from the galactic disk. The bulk of the X-ray emission in the halo has a scale height of 1.5 kpc and can be characterized by a two-temperature optically thin thermal plasma with temperatures of 0.2 and 0.6 keV and a total 0.3-2 keV luminosity of 3.5×1039 ergs s-1. The high-resolution, multi-wavelength data reveal the presence of several extraplanar features around the disk, which appear to be associated with the in-disk star formation. We suggest that hot gas produced with different levels of mass loading can have different temperatures, which may explain the characteristic temperatures of hot gas in the halo. We have obtained a sub-galactic scale X-ray-intensity-star formation relation, which is consistent with the integrated version in other star forming galaxies.