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Massive Black Hole Jets --Destroyers or Creators? Astronomers Unlock New Insights



Do black holes hold the key that could unlock the secrets of our patch of the Universe? Some of the world's leading physicists believe that in the event that quantum effects allow time to extend indefinitely into the past that it could be possible that beyond the event horizon of a black hole is the beginning of another universe.

Embedded in the heart of each of the Universe's one trillion galaxies is a supermassive black hole that is roughly one million to one billion times the mass of the sun. About 10 percent of these giant black holes feature jets of plasma, or highly ionized gas, that extend in opposite directions of the black hole. By spewing huge amounts of mostly kinetic energy from the black holes into the Universe, the jets affect how stars and other bodies form, and play a crucial role in the evolution of clusters of galaxies, the largest structures in the Universe.

“This black hole in the center of the cluster is affecting everything else in that cluster,” said Dan Evans, at MIT's Kavli Institute for Astrophysics and Space Research. Because a jet gently heats the gas it carries throughout a galaxy cluster, it can slow and even prevent stars, which are created by the condensation and collapse of cool molecular gas, from forming, thereby affecting the growth of galaxies, Evans explained. “Without these jets, clusters of galaxies would look very different.”

How these jets form remains one of the most important unsolved mysteries in extragalactic astrophysics. Now Evans may be one step closer to unlocking that mystery.

For two years, Evans compared several dozen galaxies whose black holes host powerful jets (known as radio-loud active galactic nuclei, or AGN -- like the image of the supermassive black hole at the center of the Milky Way shown above) to those galaxies with supermassive black holes that do not eject jets. All black holes -- those with and without jets -- feature accretion disks, the clumps of dust and gas rotating just outside their event horizon.

By examining the light reflected in the accretion disk of an AGN black hole, Evans has concluded that jets may form right outside black holes that have a retrograde spin -- or which spin in the opposite direction from their accretion disk.

Although Evans and a colleague hypothesized that the gravitational effects of black hole spin may have something to do with why some have jets. While researchers know that the mass of a black hole is intimately linked to the galaxy in which it is located, they have, until now, known little about the role of its second fundamental property -- spin. Evans asserts that spin is crucial to understanding the dynamics of a black hole’s host galaxy because it may actually create the jet that regulates the growth of that galaxy and the universe.

Although Evans has suspected for nearly five years that retrograde black holes with jets are missing the innermost portion of their accretion disk, it wasn’t until last year that computational advances meant that he could analyze data collected between late 2007 and early 2008 by the Suzaku observatory, a Japanese satellite launched in 2005 with collaboration from NASA, to provide an example to support the theory. 

With these data, Evans and colleagues from the Harvard-Smithsonian Center for Astrophysics, Yale University, Keele University and the University of Hertfordshire in the United Kingdom analyzed the spectra of a supermassive black hole with a jet located about 800 million light years away in an AGN named 3C 33.

Astrophysicists can see the signatures of X-ray emission from the inner regions of the accretion disk, which is located close to the edge of a black hole, as a result of a super hot atmospheric ring called a corona that lies above the disk and emits light that an observatory like Suzaku can detect. In addition to this direct light, a fraction of light passes down from the corona onto the black hole’s accretion disk and is reflected from the disk’s surface, resulting in a spectral signature pattern called the Compton reflection hump, also detected by Suzaku.

But Evans’ team never found a Compton reflection hump in the X-ray emission given off by 3C 33, a finding the researchers believe provides crucial evidence that the accretion disk for a black hole with a jet is truncated, meaning it doesn’t extend as close to the center of the black hole with a jet as it does for a black hole that does not have a jet. The absence of this innermost portion of the disk means that nothing can reflect the light from the corona, which explains why observers only see a direct spectrum of X-ray light.

The researchers believe the absence may result from retrograde spin, which pushes out the orbit of the innermost portion of accretion material as a result of general relativity, or the gravitational pull between masses. This absence creates a gap between the disk and the center of the black hole that leads to the piling of magnetic fields that provide the force to fuel a jet.

The field of research will expand considerably with the upcoming launch of NASA’s Nuclear Spectroscopic Telescope Array (NuSTAR) satellite, which is 10 to 50 times more sensitive to spectra and the Compton reflection hump than current technology.

NuSTAR will help researchers conduct a “giant census” of supermassive black holes that “will absolutely revolutionize the way we look at X-ray spectra of AGN,” Evans explained. He plans to spend another two years comparing black holes with and without jets, hoping to learn more about the properties of AGN. His goal over the next decade is to determine how the spin of a supermassive black hole evolves over time. 

The Daily Galaxy  via MIT

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What has always bothered me about the idea of the big bang, is that there must be some equal and opposite force at play within the universe. Or else how would the process repeat itself? If its just a single huge ejection of matter then how would that event ever take place twice? Without some kind of super black hole swallowing all matter and repeating the process? Whats really mind boggling is what would happen in the event that something did in fact concentrate all matter in the universe? Which is essentially the theory of the big crunch. Something like that must have taken place to produce an explosion the size of the big bang?

What is the galaxy illustrated above the story? Is that an actual photo or an 'artist's impression'?

Looks so nice and amazingly different.

Ok, in my highly profane opinion, the Universe inside a black hole theory answers most of the questions we have about the Big Bang and the formation of our Universe.

And a question for the science people. We think of black holes as botomless distortions of the time-space continuum. Matter that gets inside is crushed to subatomic particles. Isn't there a limit to how much a black hole can absorb before it finnaly gives birth "on the other side" to an ocean of matter similar to what we witness here, in our Universe ?

Shouldn't the comment of "one trillion galaxies" have been preceded with the word estimated ?

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