%0 Generic %1 peacock2014evidence %A Peacock, Mark B. %A Zepf, Stephen E. %A Maccarone, Thomas J. %A Kundu, Arunav %A Gonzalez, Anthony H. %A Lehmer, Bret D. %A Maraston, Claudia %D 2014 %K constant early imf type variation %T Evidence for a constant IMF in early-type galaxies based on their X-ray binary populations %U http://arxiv.org/abs/1401.3405 %X A number of recent studies have proposed that the stellar initial mass function (IMF) of early type galaxies varies systematically as a function of galaxy mass, with higher mass galaxies having steeper IMFs. These steeper IMFs have more low-mass stars relative to the number of high mass stars, and therefore naturally result in proportionally fewer neutron stars and black holes. In this paper, we specifically predict the variation in the number of black holes and neutron stars in early type galaxies based on the IMF variation required to reproduce the observed mass-to-light ratio trends with galaxy mass. We then test whether such variations are observed by studying the field low-mass X-ray binary populations (LMXBs) of nearby early-type galaxies. In these binaries, a neutron star or black hole accretes matter from a low-mass donor star. Their number is therefore expected to scale with the number of black holes and neutron stars present in a galaxy. We find that the number of LMXBs per K-band light is similar among the galaxies in our sample. These data are consistent with an invariant IMF but inconsistent with proposals that the IMF varies from a Kroupa/Chabrier like IMF at low masses to a steeper IMF (with slope x=2.8) at high masses. We discuss how these observations constrain the possible forms of the IMF variations and how future Chandra observations can enable sharper tests of the IMF.

@misc{peacock2014evidence, abstract = {A number of recent studies have proposed that the stellar initial mass function (IMF) of early type galaxies varies systematically as a function of galaxy mass, with higher mass galaxies having steeper IMFs. These steeper IMFs have more low-mass stars relative to the number of high mass stars, and therefore naturally result in proportionally fewer neutron stars and black holes. In this paper, we specifically predict the variation in the number of black holes and neutron stars in early type galaxies based on the IMF variation required to reproduce the observed mass-to-light ratio trends with galaxy mass. We then test whether such variations are observed by studying the field low-mass X-ray binary populations (LMXBs) of nearby early-type galaxies. In these binaries, a neutron star or black hole accretes matter from a low-mass donor star. Their number is therefore expected to scale with the number of black holes and neutron stars present in a galaxy. We find that the number of LMXBs per K-band light is similar among the galaxies in our sample. These data are consistent with an invariant IMF but inconsistent with proposals that the IMF varies from a Kroupa/Chabrier like IMF at low masses to a steeper IMF (with slope x=2.8) at high masses. We discuss how these observations constrain the possible forms of the IMF variations and how future Chandra observations can enable sharper tests of the IMF.}, added-at = {2014-01-16T10:25:08.000+0100}, author = {Peacock, Mark B. and Zepf, Stephen E. and Maccarone, Thomas J. and Kundu, Arunav and Gonzalez, Anthony H. and Lehmer, Bret D. and Maraston, Claudia}, biburl = {https://www.bibsonomy.org/bibtex/2ce6c25f535fe1e254446329bb0b86281/miki}, description = {[1401.3405] Evidence for a constant IMF in early-type galaxies based on their X-ray binary populations}, interhash = {be23e1e74d2448e74d371acb51e8a66e}, intrahash = {ce6c25f535fe1e254446329bb0b86281}, keywords = {constant early imf type variation}, note = {cite arxiv:1401.3405Comment: 12 pages, 5 figures, 2 tables, submitted to ApJ, revised following initial referees report}, timestamp = {2014-01-16T10:25:08.000+0100}, title = {Evidence for a constant IMF in early-type galaxies based on their X-ray binary populations}, url = {http://arxiv.org/abs/1401.3405}, year = 2014 }