Self-consistent Predictions for LIER-like Emission Lines from Post-AGB Stars
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Byler, Nell
Dalcanton, Julianne
Conroy, Charlie
Johnson, Benjamin D.
Choi, Jieun
Dotter, Aaron
Rosenfield, Philip
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Institute of Physics Publishing
Abstract
Early-type galaxies (ETGs) frequently show emission from warm ionized gas. These low-ionization emission
regions (LIERs) were originally attributed to a central, low-luminosity active galactic nucleus. However, the recent
discovery of spatially extended LIER emission suggests ionization by both a central source and an extended
component that follows a stellar-like radial distribution. For passively evolving galaxies with old stellar
populations, hot post-asymptotic giant branch (AGB) stars are the only viable extended source of ionizing photons.
In this work, we present the first prediction of LIER-like emission from post-AGB stars that is based on fully selfconsistent
models of stellar evolution and photoionization. We show that models where post-AGB stars are the
dominant source of ionizing photons reproduce the signatures of nebular emission observed in ETGs, including
LIER-like emission line ratios in standard optical diagnostic diagrams and Ha equivalent widths of the order of
0.1–3 Å. We test the sensitivity of LIER-like emission to the details of post-AGB models, including the mass loss
efficiency and convective mixing efficiency, and show that line strengths are relatively insensitive to variations in
post-AGB timescale. Finally, we examine the UV–optical colors of the models and the stellar populations
responsible for the UV excess observed in some ETGs. We find that allowing as little as 3% of the horizontal
branch population to be uniformly distributed to very high temperatures (30,000 K) produces realistic UV colors
for old, quiescent ETGs.
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The Astronomical Journal
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Restricted until
2037-12-31
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