Abstract
Luminous $z\ge7$ quasars provide direct probes of the evolution of
supermassive black holes (SMBHs) and the intergalactic medium (IGM) during the
epoch of reionization (EoR). The Ly$\alpha$ damping wing absorption imprinted
by neutral hydrogen in the IGM can be detected in a single EoR quasar spectrum,
allowing the measurement of the IGM neutral fraction towards that line of
sight. However, damping wing features have only been detected in two $z>7$
quasars in previous studies. In this paper, we present new high quality optical
and near-infrared spectroscopy of the $z=7.00$ quasar DES J025216.64--050331.8
obtained with Keck/NIRES and Gemini/GMOS. By using the MgII single-epoch virial
method, we find that it hosts a $(1.39\pm0.16) \times10^9 ~M_ødot$ SMBH
accreting at an Eddington ratio of $łambda_Edd=0.7\pm0.1$, consistent
with the values seen in other luminous $z7$ quasars. Furthermore, the
Ly$\alpha$ region of the spectrum exhibits a strong damping wing absorption
feature. The lack of associated metal absorption in the quasar spectrum
indicates that this absorption is imprinted by a neutral IGM. Using a
state-of-the-art model developed by Davies et al., we measure a volume-averaged
neutral hydrogen fraction at $z=7$ of $x_HI =
0.70^+0.20_-0.23 (^+0.28_-0.48)$ within 68% (95%) confidence intervals
when marginalizing over quasar lifetimes of $10^3t_Qłe10^8$ yr. This
is the highest IGM neutral fraction yet measured using reionization-era quasar
spectra.
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