Litcius/Paper detail

Three Lyα Emitting Galaxies within a Quasar Proximity Zone at z ∼ 5.8

Sarah E. I. Bosman, Koki Kakiichi, Romain A. Meyer, Max Gronke, Nicolas Laporte, Richard S. Ellis

2020The Astrophysical Journal62 citationsDOIOpen Access PDF

Abstract

Abstract Quasar proximity zones at correspond to overdense and overionized environments. Galaxies found inside proximity zones can therefore display features that would otherwise be masked by absorption in the intergalactic medium. We demonstrate the utility of this quasar-galaxy synergy by reporting the discovery of the first three “proximate Ly α emitters” (LAEs) within the proximity zone of quasar J0836+0054 at z = 5.795 (Aerith A, B, and C). Aerith A, located behind the quasar with an impact parameter pkpc, provides the first detection of an Ly α transverse proximity effect. We model the transmission and show that it constrains the onset of J0836's quasar phase to in the past. The second object, Aerith B at a distance pkpc from the quasar, displays a bright and broad double-peaked Ly α emission line. The peak separation implies a low ionizing . We fit the Ly α line with an outflowing shell model, finding a typical central density , outflow velocity km s −1 , and gas temperature compared to analog LAEs. We detect object Aerith C via an Ly α emission line at z = 5.726. This corresponds with the edge of the quasar’s proximity zone ( ), suggesting that the proximity zone is truncated by a density fluctuation. Via the analyses conducted here, we illustrate how proximate LAEs offer unique insight into the ionizing properties of both quasars and galaxies during hydrogen reionization.

Topics & Concepts

PhysicsQuasarAstrophysicsGalaxyOutflowLine (geometry)Intergalactic travelEmission spectrumProximity effect (electron beam lithography)OVV quasarSpectral lineAstronomyTransverse planeAbsorption (acoustics)Active galactic nucleusIntergalactic mediumIonizationAbsorption spectroscopyGalaxies: Formation, Evolution, PhenomenaAstrophysics and Cosmic PhenomenaAstronomy and Astrophysical Research