Evolution of Early-Type Galaxies in Distant Clusters: The Fundamental Plane using HST Imaging and Keck Spectroscopy

Abstract

We present new results on the Fundamental Plane of galaxies in two rich clusters, Cl1358+62 at $z=0.33$ and MS2053--04 at $z=0.58$, based on Keck and HST observations. Our new data triple the sample of galaxies with measured Fundamental Plane parameters at intermediate redshift. The early-type galaxies in these clusters define very clear Fundamental Plane relations, confirming an earlier result for Cl0024+16 at $z=0.39$. This large sample allows us to estimate the scatter reliably. We find it to be low, at 0.067 dex in $\log r_e$, or 17% in re, similar to that observed in comparable low redshift clusters. This suggests that the structure of the older galaxies has changed little since $z=0.58$. The $M/L_V$ ratios of early-type galaxies clearly evolve with redshift; the evolution is consistent with $\Delta \log M/L_V \sim -0.3z$. The $M/L_V$ ratios of two E+A galaxies in Cl1358+62 are also lower by a factor of $\sim 3$, consistent with the hypothesis that they underwent a starburst 1 Gyr previously. We conclude that the Fundamental Plane can therefore be used as a sensitive diagnostic of the evolutionary history of galaxies. Our data, when compared to the predictions of simple stellar population models, imply that the oldest cluster galaxies formed at high redshift ($z > 2$). We infer a different evolutionary history for the E+A galaxies, in which a large fraction of stars formed at $z<1$. Larger samples spanning a larger redshift range are needed to determine the influence of starbursts on the general cluster population.