Constraining the Gravitational Lensing of z6 Quasars from their Proximity Zones

Abstract

Since their discovery twenty years ago, the observed luminosity function of z6 quasars has been suspected to be biased by gravitational lensing. Apart from the recent discovery of UHS J0439+1634 at z≈6.52, no other strongly lensed z6 quasar has been conclusively identified. The hyperluminous z≈6.33 quasar SDSS J0100+2802, believed to host a supermassive black hole of 1010 M, has recently been claimed to be lensed by a factor of 450, which would negate both its extreme luminosity and black hole mass. However, its Lyα-transparent proximity zone is the largest known at z>6, suggesting an intrinsically extreme ionizing luminosity. Here we show that the lensing hypothesis of z6 quasars can be quantitatively constrained by their proximity zones. We first show that our proximity zone analysis can recover the strongly lensed nature of UHS J0439+1634, with an estimated magnification μ=28.0+18.4-11.7(+44.9-18.3) at 68% (95%) credibility that is consistent with previously published lensing models. We then show that the large proximity zone of SDSS J0100+2802 rules out lensing magnifications of μ>4.9 at 95% probability, and conclusively rule out the proposed μ>100 scenario. Future proximity zone analyses of existing z6 quasar samples have the potential to identify promising strongly lensed candidates, constrain the distribution of z6 quasar lensing, and improve our knowledge of the shape of the intrinsic quasar luminosity function.