The UV spectral slope beta and stellar population of most active star-forming galaxies at z~4

Abstract

We investigate the stellar population of star-forming galaxies at z 4 by focusing on their slope of rest-frame ultraviolet (UV) continuum, β where fλ λβ. We investigate the sample of bright Lyman Break Galaxies (LBGs) with i' ≤ 26.0 in the Subaru/XMM-Newton Deep Survey field by using the SED fitting analysis. We find that the apparently redder (βobs > -1.73) LBGs tend to be dusty (Av > 1.0), have the young stellar population (βint < -2.42), and the intrinsically active star-forming galaxies (SFR a few × 102 M yr-1). It means that a significant fraction of the UV-selected LBGs at z 4 is on-going active and dust obscured star-forming galaxies. We compare the IR to UV luminosity ratio assuming the dust attenuation laws with the sub-millimeter observations from previous works. The result suggests that the Calzetti-like dust attenuation law is preferable for the active and dusty star-forming LBGs at z = 4. We also find that an extrapolation of the βint-MUV,int relation toward the fainter magnitude range below our sample magnitude limit intersects the βobs-MUV,obs relation previously obtained in the deeper narrow-area observations at MUV = -18.9 and β = -1.94, which coincides with the break point of βobs-MUV,obs relation observed so far. The coincidence suggest that we see the almost dust-free population at MUV,obs -18.9.