4.7 Article

Project AMIGA: The Circumgalactic Medium of Andromeda

Journal

ASTROPHYSICAL JOURNAL
Volume 900, Issue 1, Pages -

Publisher

IOP Publishing Ltd
DOI: 10.3847/1538-4357/aba49c

Keywords

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Funding

  1. NASA from the Space Telescope Science Institute [HST-GO-14268]
  2. NSF [AST-1517491, AST-1715216, AST-1652522]
  3. STScI [HST-GO-14681.011, HST-AR-14293.001-A]
  4. NASA [NAS5-26555, NNX15AB22G, 17-ATP17-0067, NAS5-32985]
  5. Research Corporation for Science Advancement

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Project AMIGA (Absorption Maps In the Gas of Andromeda) is a survey of the circumgalactic medium (CGM) of Andromeda (M31, R-vir similar or equal to 300 kpc) along 43 QSO sightlines at impact parameters 25 <= R <= 569 kpc (25 at R less than or similar to R-vir). We use ultraviolet absorption measurements of Si II, Si III, Si IV, C II, and C IV from the Hubble Space Telescope/Cosmic Origins Spectrograph and O VI from the Far Ultraviolet Spectroscopic Explorer to provide an unparalleled look at how the physical conditions and metals are distributed in the CGM of M31. We find that Si III and O VI have a covering factor near unity for R less than or similar to 1.2 R-vir and less than or similar to 1.9 R-vir, respectively, demonstrating that M31 has a very extended similar to 10(4) -10(5.5) K ionized CGM. The metal and baryon masses of the 10(4)-10(5.5) K CGM gas within R-vir are greater than or similar to 10(8) and greater than or similar to 4 x 10(10) (Z/0.3 Z(circle dot))M--1(circle dot), respectively. There is not much azimuthal variation in the column densities or kinematics, but there is with R. The CGM gas at R less than or similar to 0.5 R-vir is more dynamic and has more complicated, multiphase structures than at larger radii, perhaps a result of more direct impact of galactic feedback in the inner regions of the CGM. Several absorbers are projected spatially and kinematically close to M31 dwarf satellites, but we show that those are unlikely to give rise to the observed absorption. Cosmological zoom simulations of similar to L* galaxies have O VI extending well beyond R-vir as observed for M31 but do not reproduce well the radial column density profiles of the lower ions. However, some similar trends are also observed, such as the lower ions showing a larger dispersion in column density and stronger dependence on R than higher ions. Based on our findings, it is likely that the Milky Way has a similar to 10(4) -10(5.5) K CGM as extended as for M31 and their CGM (especially the warm-hot gas probed by O VI) are overlapping.

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