Kim, Dong-WooDong-WooKimAnderson, CraigCraigAndersonBurke, Douglas J.Douglas J.BurkeFabbiano, GiuseppinaGiuseppinaFabbianoFRUSCIONE, ANTONELLAANTONELLAFRUSCIONELauer, Jennifer L.Jennifer L.LauerMcCollough, Michael L.Michael L.McColloughMorgan, DouglasDouglasMorganMossman, AmyAmyMossmanO'Sullivan, EwanEwanO'SullivanPAGGI, AlessandroAlessandroPAGGI0000-0002-5646-2410TRINCHIERI, GinevraGinevraTRINCHIERI0000-0002-0227-502X2020-06-052020-06-052016http://hdl.handle.net/20.500.12386/25941The hot gas in early type galaxies (ETGs) plays a crucial role in understanding their formation and evolution. As the hot gas is often extended to the outskirts beyond the optical size, the large scale structural features identified by Chandra (including jets, cavities, cold fronts, filaments and tails) point to key evolutionary mechanisms, e.g., AGN feedback, merging history, accretion/stripping and star formation and its quenching. In our new project, the Chandra Galaxy Atlas, we systematically analyze the archival Chandra data of ~100 ETGs to study the hot ISM. Using uniformly derived data products with spatially resolved spectral information, we will present gas morphology, scaling relations and X-ray based mass profiles and address their implications.ELETTRONICOitChandra Galaxy Atals - Global Hot Gas PropertiesConference abstracthttps://aas.org/meetings/head152016HEAD...1511004KFIS/05 - ASTRONOMIA E ASTROFISICA