Evidence for Radio Loud to Radio Quiet Evolution from Red and Blue Quasars

Recent work on red and blue quasi-stellar objects (QSOs) has identified peculiar number distributions as a function of radio-loudness that we explore and attempt to explain from the perspective of a picture in which a subset of the population of active galaxies evolves from the radio-loud to the rad...

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Bibliographic Details
Published in:Publications of the Astronomical Society of the Pacific Vol. 132; no. 1017; pp. 1 - 6
Main Authors: Garofalo, David, Bishop, Katie
Format: Journal Article
Language:English
Published: Philadelphia The Astronomical Society of the Pacific 01-11-2020
IOP Publishing Limited
IOP Publishing
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Summary:Recent work on red and blue quasi-stellar objects (QSOs) has identified peculiar number distributions as a function of radio-loudness that we explore and attempt to explain from the perspective of a picture in which a subset of the population of active galaxies evolves from the radio-loud to the radio-quiet state. Because the time evolution is slowed down by an order of magnitude or more for the radio-quiet phase, the numbers of red and blue QSOs approach each other at the extreme end of the radio-quiet range of radio-loudness with larger numbers. The rapid time evolution of most radio-loud phases, instead, makes the numbers similar but lower at the far radio-loud end. At the midpoint of radio-loudness, instead, the differences between red and blue QSOs experience their largest values which results from accretion rapidly spinning black holes down but subsequently spinning them up more slowly. Recovering these basic features of the observations is evidence for rapid evolution away from radio-loudness and slow evolution in radio-quiet states.
Bibliography:PASP-101024.R5
ISSN:0004-6280
1538-3873
DOI:10.1088/1538-3873/abb999