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26 April 2024 |
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The High-Mass Stellar Initial Mass Function in M31 Clusters | | Daniel R. Weisz
; L. Clifton Johnson
; Daniel Foreman-Mackey
; Andrew E. Dolphin
; Lori C. Beerman
; Benjamin F. Williams
; Julianne J. Dalcanton
; Hans-Walter Rix
; David W. Hogg
; Morgan Fouesneau
; Benjamin D. Johnson
; Eric F. Bell
; Martha L. Boyer
; Dimitrios Gouliermis
; Puragra Guhathakurta
; Jason S. Kalirai
; Alexia R. Lewis
; Anil C. Seth
; Evan D. Skillman
; | | Date: |
23 Feb 2015 | | Abstract: | We have undertaken the largest systematic study of the high-mass stellar
initial mass function (IMF) to date using the optical color-magnitude diagrams
(CMDs) of 85 resolved, young (4 Myr < t < 25 Myr), intermediate mass star
clusters (10^3-10^4 Msun), observed as part of the Panchromatic Hubble
Andromeda Treasury (PHAT) program. We fit each cluster’s CMD to measure its
mass function (MF) slope for stars >2 Msun. For the ensemble of clusters, the
distribution of stellar MF slopes is best described by
$Gamma=+1.45^{+0.03}_{-0.06}$ with a very small intrinsic scatter. The data
also imply no significant dependencies of the MF slope on cluster age, mass,
and size, providing direct observational evidence that the measured MF
represents the IMF. This analysis implies that the high-mass IMF slope in M31
clusters is universal with a slope ($Gamma=+1.45^{+0.03}_{-0.06}$) that is
steeper than the canonical Kroupa (+1.30) and Salpeter (+1.35) values. Using
our inference model on select Milky Way (MW) and LMC high-mass IMF studies from
the literature, we find $Gamma_{
m MW} sim+1.15pm0.1$ and $Gamma_{
m LMC}
sim+1.3pm0.1$, both with intrinsic scatter of ~0.3-0.4 dex. Thus, while the
high-mass IMF in the Local Group may be universal, systematics in literature
IMF studies preclude any definitive conclusions; homogenous investigations of
the high-mass IMF in the local universe are needed to overcome this limitation.
Consequently, the present study represents the most robust measurement of the
high-mass IMF slope to date. We have grafted the M31 high-mass IMF slope onto
widely used sub-solar mass Kroupa and Chabrier IMFs and show that commonly used
UV- and Halpha-based star formation rates should be increased by a factor of
~1.3-1.5 and the number of stars with masses >8 Msun are ~25% fewer than
expected for a Salpeter/Kroupa IMF. [abridged] | | Source: | arXiv, 1502.6621 | | Services: | Forum | Review | PDF | Favorites | |
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