Thursday, May 31, 2012

1205.6473 (Charlie Conroy et al.)

The Stellar Initial Mass Function in Early-Type Galaxies From Absorption Line Spectroscopy. II. Results    [PDF]

Charlie Conroy, Pieter van Dokkum
The spectral absorption lines in early-type galaxies contain a wealth of information regarding the detailed abundance pattern, star formation history, and stellar initial mass function (IMF) of the underlying stellar population. Using our new population synthesis model that accounts for the effect of variable abundance ratios of 11 elements, we analyze very high quality absorption line spectra of 38 early-type galaxies and the nuclear bulge of M31. These data extend to 1\mu m and they therefore include the IMF-sensitive spectral features NaI, CaII, and FeH at 0.82\mu m, 0.86\mu m and 0.99\mu m, respectively. The models fit the data well, with typical rms residuals of 1%. Strong constraints on the IMF and therefore the stellar mass-to-light ratio, (M/L)_stars, are derived for individual galaxies. We find that the IMF becomes increasingly bottom-heavy with increasing velocity dispersion and [Mg/Fe]. At the lowest dispersions and [Mg/Fe] values the derived IMF is consistent with the Milky Way IMF, while at the highest dispersions and [Mg/Fe] values the derived IMF contains more low-mass stars (is more bottom-heavy) than a Salpeter IMF. Our best-fit (M/L)_stars values do not exceed dynamically-based M/L values. We also apply our models to stacked spectra of four metal-rich globular clusters in M31 and find an (M/L)_stars that implies fewer low-mass stars than a Milky Way IMF, again agreeing with dynamical constraints. We discuss other possible explanations for the observed trends and conclude that variation in the IMF remains the simplest and most plausible.
View original: http://arxiv.org/abs/1205.6473

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