http://arxiv.org/abs/1808.05247
We present new measurements of the large-scale effective optical depth of HeII Ly$\alpha$ absorption, $\tau_{\rm eff}$, at $2.54<z<3.86$ toward 16 HeII-transparent quasars observed with the Cosmic Origins Spectrograph on the Hubble Space Telescope, to characterize the ionization state of helium in the intergalactic medium. We provide the first statistically meaningful sample of $\tau_{\rm eff}$ measurements in six science-grade (signal-to-noise ratio $\gtrsim 3$) HeII sightlines at $z>3.5$, and combine them with our previous results at lower redshifts to study the redshift evolution of $\tau_{\rm eff}$ in 24 HeII sightlines. We confirm that the median $\tau_{\rm eff}$ increases from $\simeq 2$ at $z=2.7$ to a limit $\tau_{\rm eff}\gtrsim 5$ at $z>3$, and that the scatter in $\tau_{\rm eff}$ increases with redshift. At $z>3.5$ we observe predominantly saturated HeII absorption, but several isolated narrow transmission spikes indicate patches of fully reionized helium at these early epochs. We statistically compare our measurements to predictions for a range of UV background models applied to outputs of a large-volume hydrodynamical simulation by forward-modeling the quality and size of our sample. At $z>2.74$ the variance in the observed $\tau_{\rm eff}$ significantly exceeds expectations for a spatially uniform HeII-ionizing background, but is in good agreement with a fluctuating radiation field. We develop a method to infer the approximate median HeII photoionization rate $\Gamma_{\rm HeII}$ of a fluctuating UV background from the median $\tau_{\rm eff}$, finding it to monotonically decrease by a factor $\simeq 5$ from $z\simeq 2.6$ to $z\simeq 3.1$. At $z\simeq 3.1$ our inferred $\Gamma_{\rm HeII}$ corresponds to a median HeII fraction of $\simeq 2.5$\%, indicating that our observations probe the tail end of HeII reionization when UV background fluctuations gradually diminished.
G. Worseck, F. Davies, J. Hennawi, et. al.
Fri, 17 Aug 18
8/53
Comments: Submitted to ApJ; 28 pages, 12 figures, abstract abridged
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