Have We Detected Patchy Reionization in Quasar Spectra?

The Lya forest at z 5.5 shows strong scatter in the mean transmission even when smoothed over extremely large spatial scales, 50 Mpc h super(-1). This has been interpreted as a signature of strongly fluctuating radiation fields or patchy reionization. To test this claim, we calculate the scatter ari...

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Bibliographic Details
Published in:The Astrophysical journal 2006-03, Vol.639 (2), p.L47-L50
Main Authors: Lidz, Adam, Oh, S. Peng, Furlanetto, Steven R
Format: Article
Language:English
Subjects:
Astronomy
Earth, ocean, space
Exact sciences and technology
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Summary:The Lya forest at z 5.5 shows strong scatter in the mean transmission even when smoothed over extremely large spatial scales, 50 Mpc h super(-1). This has been interpreted as a signature of strongly fluctuating radiation fields or patchy reionization. To test this claim, we calculate the scatter arising solely from density fluctuations, assuming a uniform ionizing background, via analytic arguments and simulations. This scatter alone is comparable to that observed. It rises steeply with redshift and is of order unity by z 6 6, even on 650 Mpc h super(-1) scales. This arises because (1) at z 6 6, transmission spectra, which are sensitive mainly to rare voids, are highly biased (with a linear bias factor b . 4) tracers of underlying density fluctuations and (2) small-scale transverse modes are aliased to long-wavelength line-of-sight modes. Inferring patchy reionization from quasar spectra is therefore subtle and requires much more detailed modeling. Similarly, we expect density fluctuations alone to produce order unity transmission fluctuations in the z 6 3 He II Lya forest on the scales over which these measurements are typically made.
ISSN:1538-4357
0004-637X
1538-4357
DOI:10.1086/502678