The Evolution of Rest-Frame K-band Properties of Early-Type Galaxies from z=1 to the Present

Abstract

We measure the evolution of the rest-frame K-band Fundamental Plane from z=1 to the present by using IRAC imaging of a sample of early-type galaxies in the Chandra Deep Field-South at z~1 with accurately measured dynamical masses. We find that M/LK evolves as (M/LK)=(-1.180.10)z, which is slower than in the B-band ((M/LB)=(-1.460.09)z). In the B-band the evolution has been demonstrated to be strongly mass dependent. In the K-band we find a weaker trend: galaxies more massive than M=2×1011M evolve as (M/LK)=(-1.010.16)z; less massive galaxies evolve as (M/LK)=(-1.270.11)z. As expected from stellar population models the evolution in M/LK is slower than the evolution in M/LB. However, when we make a quantitative comparison, we find that the single burst Bruzual-Charlot models do not fit the results well, unless large dust opacities are allowed at z=1. Models with a flat IMF fit better, Maraston models with a different treatment of AGB stars fit best. These results show that the interpretation of rest-frame near-IR photometry is severely hampered by model uncertainties and therefore that the determination of galaxy masses from rest-frame near-IR photometry may be harder than was thought before.

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