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Mysterious quasar sequence explained | Astronomy.com
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Mysterious quasar sequence explained

New work shows that most observed quasar phenomena can be unified by quantifying how efficiently the black hole is being fed and knowing the viewing orientation from Earth.
RELATED TOPICS: BLACK HOLES | QUASARS
Quasar
A growing black hole, called a quasar, can be seen at the center of a faraway galaxy in this artist's concept.
NASA/JPL-Caltech
Quasars are supermassive black holes that live at the centers of distant massive galaxies. They shine as the most luminous beacons in the sky across the entire electromagnetic spectrum by rapidly accreting matter into their gravitationally inescapable centers. New work from Yue Shen from the Carnegie Institute for Science in Washington, D.C., and Luis Ho of the Kavli Institute for Astronomy and Astrophysics at Peking University in China solves a quasar mystery that astronomers have been puzzling over for 20 years. Their work shows that most observed quasar phenomena can be unified with two simple quantities: one that describes how efficiently the hole is being fed, and the other that reflects the viewing orientation of the astronomer.

Quasars display a broad range of outward appearances when viewed by astronomers, reflecting the diversity in the conditions of the regions close to their centers. But despite this variety, quasars have a surprising amount of regularity in their quantifiable physical properties, which follow well-defined trends — referred to as the “main sequence” of quasars — discovered more than 20 years ago. Shen and Ho solved a two-decade puzzle in quasar research: What unifies these properties into this main sequence?

Using the largest and most homogeneous sample to date of over 20,000 quasars from the Sloan Digital Sky Survey, combined with several novel statistical tests, Shen and Ho were able to demonstrate that one particular property related to the accretion of the hole, called the Eddington ratio, is the driving force behind the so-called main sequence. The Eddington ratio describes the efficiency of matter fueling the black hole, the competition between the gravitational force pulling matter inward and the luminosity driving radiation outward. This push and pull between gravity and luminosity has long been suspected to be the primary driver behind the so-called main sequence, and their work at long last confirms this hypothesis.

Of additional importance, they found that the orientation of an astronomer’s line of sight when looking down into the black hole’s inner region plays a significant role in the observation of the fast-moving gas innermost to the hole, which produces the broad emission lines in quasar spectra. This changes scientists’ understanding of the geometry of the line-emitting region closest to the black hole, a place called the broad-line region — the gas is distributed in a flattened, pancake-like configuration. Going forward, this will help astronomers improve their measurements of black hole masses for quasars.

“Our findings have profound implications for quasar research. This simple unification scheme presents a pathway to better understand how supermassive black holes accrete matter and interplay with their environments,” Shen said.

“And better black hole mass measurements will benefit a variety of applications in understanding the cosmic growth of supermassive black holes and their place in galaxy formation,” Ho said.
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