How Did Supermassive Black Holes Get So Big So Fast?

Black holes have always been fascinating, although rarely understood by the average Joe, such as me. In fact, I’m not so sure that even theoretical physicists such as Stephen Hawking really and truly understand black holes. Nevertheless, it is interesting to read what the “experts” have to say. TGO

Refer to story below. Source: SPACE.com

SPACE.com

Black Hole

Black holes may have grown incredibly rapidly in the newborn universe, perhaps helping explain why they appear so early in cosmic history, researchers say.

Black holes possess gravitational pulls so powerful that not even light can escape their clutches. They are generally believed to form after massive stars die in gargantuan explosions known as supernovas, which crush the remaining cores into incredibly dense objects.

Supermassive black holes millions to billions of times the mass of the sun occur at the center of most, if not all, galaxies. Such monstrously large black holes have existed since the infancy of the universe, some 800 million years or so after the Big Bang. However, it remains a mystery how these giants could have grown so big in the relatively short amount of time they had to form.

In modern black holes, features called accretion disks limit the speed of growth. These disks of gas and dust that swirl into black holes can prevent black holes from growing rapidly in two different ways, researchers say. First, as matter in an accretion disk gets close to a black hole, traffic jams occur that slow down any other infalling material. Second, as matter collides within these traffic jams, it heats up, generating energetic radiation that drives gas and dust away from the black hole.

“Black holes don’t actively suck in matter — they are not like vacuum cleaners,” said lead study author Tal Alexander, an astrophysicist at the Weizmann Institute of Science in Rehovot, Israel.

“A star or a gas stream can be on a stable orbit around a black hole, exactly as the Earth revolves around the sun, without falling into it,” Alexander told Space.com. “It is actually quite a challenge to think of efficient ways to drive gas into the black hole at a high enough rate that can lead to rapid growth.”

Alexander and his colleague Priyamvada Natarajan may have found a way in which early black holes could have grown to supermassive proportions — in part, by operating without the restrictions of accretion disks. The pair detailed their findings online today (Aug. 7) in the journal Science.

The scientists began with a model of a black hole 10 times the mass of the sun embedded in a cluster of thousands of stars. They fed the simulated black hole continuous flows of dense, cold, opaque gas.

“The early universe was much smaller and hence denser on average than it is today,” Alexander said.

This cold, dense gas would have obscured a substantial amount of the energetic radiation given off by matter falling into the black hole. In addition, the gravitational pull of the many stars around the black hole “causes it to zigzag randomly, and this erratic motion prevents the formation of a slowly draining accretion disk,” Alexander said. This means that matter falls into the black hole from all sides instead of getting forced into a disk around the black hole, from which it would swirl in far more slowly.

The “supra-exponential growth” observed in the model black hole suggests that a black hole 10 times the mass of the sun could have grown to more than 10 billion times the mass of the sun by just 1 billion years after the Big Bang, researchers said.

“This theoretical result shows a plausible route to the formation of supermassive black holes very soon after the Big Bang,” Alexander said.

Future research could examine whether supra-exponential growth of black holes could occur in modern times as well. The high-density and high-mass cold flows seen in the ancient universe may exist “for short times in unstable, dense, star-forming clusters, or in dense accretion disks around already-existing supermassive black holes,” Alexander said.

Follow us @Spacedotcom, Facebook or Google+. Originally published on Space.com.

About The Great One

Am interested in science and philosophy as well as sports; cycling and tennis. Enjoy reading, writing, playing chess, collecting Spyderco knives and fountain pens.
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