Full-Data Results of Hubble Frontier Fields: UV Luminosity Functions at z6-10 and a Consistent Picture of Cosmic Reionization

Abstract

We present UV luminosity functions of dropout galaxies at z6-10 with the complete Hubble Frontier Fields data. We obtain a catalog of 450 dropout-galaxy candidates (350, 66, and 40 at z6-7, 8, and 9, respectively), whose UV absolute magnitudes reach -14 mag, 2 mag deeper than the Hubble Ultra Deep Field detection limits. We carefully evaluate number densities of the dropout galaxies by Monte-Carlo simulations, including all lensing effects such as magnification, distortion, and multiplication of images as well as detection completeness and contamination effects in a self-consistent manner. We find that UV luminosity functions at z6-8 have steep faint-end slopes, α-2, and likely steeper slopes, α-2 at z9-10. We also find that the evolution of UV luminosity densities shows a non-accelerated decline beyond z8 in the case of Mtrunc=-15, while an accelerated in the case of Mtrunc=-17. We examine whether our results are consistent with the Thomson scattering optical depth from the Planck satellite and the ionized hydrogen fraction QHII at z7 based on the standard analytic reionization model. We find that there exist reionizaiton scenarios that consistently explain all the observational measurements with the allowed parameters of f esc=0.17+0.07-0.03 and Mtrunc>-14.0 for ion/[erg-1\ Hz]=25.34, where f esc is the escape fraction, Mtrunc is the faint limit of the UV luminosity function, and ion is the conversion factor of the UV luminosity to the ionizing photon emission rate. The length of the reionization period is estimated to be z=3.9+2.0-1.6 (for 0.1<QHII<0.99), consistent with the recent estimate from Planck.