http://arxiv.org/abs/1712.04464
For the Simulations and Constructions of the Reionization of Cosmic Hydrogen (SCORCH) project, we present new radiation-hydrodynamic simulations with updated high-redshift galaxy populations and varying radiation escape fractions. The simulations are designed to have fixed Thomson optical depth $\tau \approx 0.06$, consistent with recent Planck observations, and similar midpoint of reionization at $z \approx 7.5$, but with different ionization histories. The modeled galaxy luminosity functions and ionizing photon production rates are in good agreement with recent HST observations. Adopting a power-law form for the radiation escape fraction $f_{\text{esc}}(z) = f_8[(1+z)/9]^{a_8}$, we simulate the cases for $a_8 = 0$, 1, 2 and find that $a_8 \lesssim 2$ in order to have reionization end in the range $5.5 \lesssim z \lesssim 6.5$, consistent with Lyman alpha forest observations. At fixed $\tau$ and as the power-law slope $a_8$ increases, the reionization process starts relatively earlier, ends relatively later, and the duration $\Delta z$ increases and the asymmetry $Az$ decreases. We find a range of durations $3.1 \lesssim \Delta z \lesssim 3.8$ that is currently in tension with the upper limit $\Delta z < 2.8$ inferred from a recent joint analysis of Planck and South Pole Telescope observations.
A. Doussot, H. Trac and R. Cen
Thu, 14 Dec 17
18/74
Comments: 12 pages, 11 figures, 3 tables, submitted to ApJ