The Deepest HST Color-Magnitude Diagram of M32: Evidence for Intermediate-Age Populations

TL;DR

This study presents the deepest optical color-magnitude diagram of M32, revealing evidence of intermediate-age populations, a possible young component, and providing insights into galaxy formation and evolution.

Contribution

It provides the most detailed resolved photometry of M32, detecting new stellar features and populations, and offers empirical data supporting galaxy downsizing scenarios.

Findings

Detection of red giant branch bump and asymptotic giant branch bump.

Evidence of intermediate-age (5-10 Gyr) populations in M32.

Possible presence of a young stellar component (~0.5 Gyr).

Abstract

We present the deepest optical color-magnitude diagram (CMD) to date of the local elliptical galaxy M32. We have obtained F435W and F555W photometry based on HST ACS/HRC images for a region 110" from the center of M32 and a background field about 320" away from M32 center. Due to the high resolution of our Nyquist-sampled images, the small photometric errors, and the depth of our data we obtain the most detailed resolved photometric study of M32 yet. Deconvolution of HST images proves to be superior than other standard methods to derive stellar photometry on extremely crowded HST images. The location of the strong red clump in the CMD suggests a mean age between 8 and 10 Gyr for [Fe/H] = -0.2 in M32. We detect for the first time a red giant branch bump and an asymptotic giant branch bump in M32 which indicate that the mean age of M32's dominant population at ~2' from its center is between 5 and 10 Gyr. We see evidence of an intermediate-age population in M32 mainly due to the presence of bright asymptotic giant branch stars. Our detection of a blue component of stars (blue plume) may indicate for the first time the presence of a young stellar population, with ages of the order of 0.5 Gyr, in our M32 field. However, it is likely that the brighter stars of this blue plume belong to the disk of M31 rather than to M32. The fainter stars populating the blue plume indicate the presence of stars not younger than 1 Gyr and/or blue straggler stars in M32. M32's dominant population of 8--10 Gyr implies a formation redshift of 1 < z_f < 2, precisely when observations of the specific star formation rates and models of "downsizing" imply galaxies of M32's mass ought to be forming their stars. Our CMD therefore provides a "ground-truth" of downsizing scenarios at z=0. Our background field data represent the deepest optical observations yet of the inner disk and bulge of M31. [Abridged]