2022ApJ...932..103G -
Astrophys. J., 932, 103-103 (2022/June-3)
The MASSIVE Survey. XVI. The Stellar Initial Mass Function in the Center of MASSIVE Early-type Galaxies.
GU M., GREENE J.E., NEWMAN A.B., KREISCH C., QUENNEVILLE M.E., MA C.-P. and BLAKESLEE J.P.
Abstract (from CDS):
The stellar initial mass function (IMF) is a fundamental property in the measurement of stellar masses and galaxy star formation histories. In this work, we focus on the most massive galaxies in the nearby universe \mathrm{log}({M}_{\star }/\,{M}_{\odot })\gt 11.2. We obtain high-quality Magellan/LDSS-3 long-slit spectroscopy with a wide wavelength coverage of 0.4-1.01 µm for 41 early-type galaxies (ETGs) in the MASSIVE survey and derive high signal-to-noise spectra within an aperture of Re/8. Using detailed stellar synthesis models, we constrain the elemental abundances and stellar IMF of each galaxy through full spectral modeling. All the ETGs in our sample have an IMF that is steeper than a Milky Way (Kroupa) IMF. The best-fit IMF mismatch parameter, αIMF = (M/L)/(M/L)MW, ranges from 1.1 to 3.1, with an average of <αIMF> = 1.84, suggesting that on average, the IMF is more bottom heavy than Salpeter. Comparing the estimated stellar masses with the dynamical masses, we find that most galaxies have stellar masses that are smaller than their dynamical masses within the 1σ uncertainty. We complement our sample with lower-mass galaxies from the literature and confirm that \mathrm{log}({\alpha }_{\mathrm{IMF}}) is positively correlated with \mathrm{log}(\sigma ), \mathrm{log}({M}_{\star }), and \mathrm{log}({M}_{\mathrm{dyn}}). From the combined sample, we show that the IMF in the centers of more massive ETGs is more bottom heavy. In addition, we find that \mathrm{log}({\alpha }_{\mathrm{IMF}}) is positively correlated with both [Mg/Fe] and the estimated total metallicity [Z/H]. We find suggestive evidence that the effective stellar surface density ΣKroupa might be responsible for the variation of αIMF. We conclude that σ, [Mg/Fe], and [Z/H] are the primary drivers of the global stellar IMF variation.
Abstract Copyright:
© 2022. The Author(s). Published by the American Astronomical Society.
Journal keyword(s):
Initial mass function - Galaxy evolution - Galaxy formation - Galaxy properties - Galaxy stellar content
Simbad objects:
46
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