English

New insights on the Galactic Bulge Initial Mass Function

Solar and Stellar Astrophysics 2015-09-09 v2 Astrophysics of Galaxies

Abstract

We have derived the Galactic bulge initial mass function of the SWEEPS field in the mass range 0.15 <M/M<< M/M_{\odot}< 1.0, using deep photometry collected with the Advanced Camera for Surveys on the Hubble Space Telescope. Observations at several epochs, spread over 9 years, allowed us to separate the disk and bulge stars down to very faint magnitudes, F814W \sim 26 mag, with a proper-motion accuracy better than 0.5 mas/yr. This allowed us to determine the initial mass function of the pure bulge component uncontaminated by disk stars for this low-reddening field in the Sagittarius window. In deriving the mass function, we took into account the presence of unresolved binaries, errors in photometry, distance modulus and reddening, as well as the metallicity dispersion and the uncertainties caused by adopting different theoretical color-temperature relations. We found that the Galactic bulge initial mass function can be fitted with two power laws with a break at M \sim 0.56 MM_{\odot}, the slope being steeper (α\alpha = -2.41±\pm0.50) for the higher masses, and shallower (α\alpha = -1.25±\pm0.20) for the lower masses. In the high-mass range, our derived mass function agrees well with the mass function derived for other regions of the bulge. In the low-mass range however, our mass function is slightly shallower, which suggests that separating the disk and bulge components is particularly important in the low-mass range. The slope of the bulge mass function is also similar to the slope of the mass function derived for the disk in the high-mass regime, but the bulge mass function is slightly steeper in the low-mass regime. We used our new mass function to derive stellar M/L values for the Galactic bulge and we obtained 2.1 <M/LF814W<<M/L_{F814W}< 2.4 and 3.1 <M/LF606W<< M/L_{F606W}< 3.6 according to different assumptions on the slope of the IMF for masses larger than 1 MM_{\odot}.

Keywords

Cite

@article{arxiv.1505.07128,
  title  = {New insights on the Galactic Bulge Initial Mass Function},
  author = {A. Calamida and K. C. Sahu and S. Casertano and J. Anderson and S. Cassisi and M. Gennaro and M. Cignoni and T. M. Brown and N. Kains and H. Ferguson and M. Livio and H. E. Bond and R. Buonanno and W. Clarkson and I. Ferraro and A. Pietrinferni and M. Salaris and J. Valenti},
  journal= {arXiv preprint arXiv:1505.07128},
  year   = {2015}
}

Comments

13 pages, 8 figures, accepted for publication on ApJ

R2 v1 2026-06-22T09:41:57.025Z