STScI Preprint #1298
I review the current understanding of the origin and nature of "warm" ionized gas in giant elliptical galaxies in the light of results of recent imaging and spectroscopic surveys. CCD imaging surveys have revealed that emission-line disks or filaments are (as a rule) associated with dust absorption, even in the X-ray brightest systems. This strongly suggests that the origin of this ionized gas is generally not through "cooling flows"; galaxy interactions are favored instead. Using data from a new spectrophotometric survey of "normal" elliptical galaxies covering the whole optical range, the extended ionized gas in giant ellipticals is found to be -without exception- of the LINER class, and most probably not powered by star formation activity. I discuss two independent pieces of evidence which suggest that the extended gas in giant ellipticals is ionized by means of a distributed source of ionization: (i) A significant correlation exists between the H +[N II] luminosity and the optical luminosity within the region occupied by the ionized gas, and (ii) the ionization parameter of the gas does not change significantly with galactocentric radius. Two potential sources of ionization are evaluated: Photoionization by old hot stars (of post-AGB and/or AGB-Manqué type) and mechanical energy flux from electron conduction in hot, X-ray-emitting gas.
1)Space Telescope Science Institute
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2) Affiliated to the Astrophysics Division, Space Science Department, European Space Agency