A Multi-wavelength View of the Star Formation Activity at z~3

Abstract

We present a multi-wavelength, UV-to-radio analysis for a sample of massive (M 1010 M) IRAC- and MIPS 24μm-detected Lyman Break Galaxies (LBGs) with spectroscopic redshifts z3 in the GOODS-North field (L UV>1.8×Lz=3). For LBGs without individual 24μm detections, we employ stacking techniques at 24μm, 1.1mm and 1.4GHz, to construct the average UV-to-radio spectral energy distribution and find it to be consistent with that of a Luminous Infrared Galaxy (LIRG) with LIR=4.5+1.1-2.3× 1011 L and a specific star formation rate (SSFR) of 4.3 Gyr-1 that corresponds to a mass doubling time 230 Myrs. On the other hand, when considering the 24μm-detected LBGs we find among them galaxies with LIR> 1012 L, indicating that the space density of z3 UV-selected Ultra-luminous Infrared Galaxies (ULIRGs) is (1.50.5)× 10-5 Mpc-3. We compare measurements of star formation rates (SFRs) from data at different wavelengths and find that there is tight correlation (Kendall's τ > 99.7%) and excellent agreement between the values derived from dust-corrected UV, mid-IR, mm and radio data for the whole range of LIR up to LIR 1013 L. This range is greater than that for which the correlation is known to hold at z2, possibly due to the lack of significant contribution from PAHs to the 24μm flux at z3. The fact that this agreement is observed for galaxies with LIR > 1012 L suggests that star-formation in UV-selected ULIRGs, as well as the bulk of star-formation activity at this redshift, is not embedded in optically thick regions as seen in local ULIRGs and submillimeter-selected galaxies at z=2.