Abstract
The lifetime of quasars can be estimated by means of their proximity zone
sizes, which are regions of enhanced flux bluewards of the Lyman-$\alpha$
emission line observed in the rest-frame UV spectra of high-redshift quasars,
because the intergalactic gas has a finite response time to the quasars'
radiation. We estimate the effective lifetime of the high-redshift quasar
population from the composite transmitted flux profile within the proximity
zone region of a sample of $15$ quasars at $5.8z6.6$ with precise
systemic redshifts, and similar luminosities, i.e. $-27.6łeq
M_1450łeq-26.4$, and thus a similar instantaneous ionizing power. We develop
a Bayesian method to infer the effective lifetime from the composite spectrum,
including robust estimates of various sources of uncertainty on the spectrum.
We estimate an effective lifetime of the quasar population as a whole of
$łog_10(t_Q/yr) = 5.7^+0.5 (+0.8)_-0.3 (-0.5)$ given by the median
and $68$th ($95$th) percentile of the posterior probability distribution. While
our result is consistent with previous quasar lifetime studies, it poses
significant challenges on the current model for the growth of supermassive
black holes (SMBHs) located in the center of the quasars' host galaxies, which
requires that quasar lifetimes are more than an order of magnitude longer.
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