Black holes spew as much as they consume. (Cosmic Blowout).Notorious for gorging on matter, the supermassive black holes at the cores of galaxies may blow out as much material as they swallow. A study reported last week suggests that during the roughly 10 billion years that these black holes power the brilliant light beacons known as quasars, they also generate high-speed winds that eject an amount of gas equivalent to billions of suns. These winds, which contain oxygen, carbon, and iron, may seed the black hole's host galaxy--and possibly intergalactic in·ter·ga·lac·tic adj. Being or occurring between galaxies: intergalactic space. in space--with the elements necessary for life. The winds travel at 20 to 40 percent of the speed of light and demonstrate that black holes, though they comprise only one-thousandth of a galaxy's mass, "can exert a profound influence on galaxy evolution," comments theorist Mitchell C. Begelman of the University of Colorado University of Colorado may refer to:
In the study, George Chartas of Pennsylvania State University Pennsylvania State University, main campus at University Park, State College; land-grant and state supported; coeducational; chartered 1855, opened 1859 as Farmers' High School. in State College and his colleagues examined the X-ray spectra of two quasars. Each quasar's light emanates from a rotating black hole A rotating black hole (Kerr black hole or Kerr-Newman black hole) is a black hole that possesses angular momentum. It is one of four possible types of black holes that could exist in the theory of gravitation called General Relativity. . For gas to spiral into a spinning black hole and fuel a quasar, it must first form a rotating disk that permits material to move inward while radiating energy. The hotter, inner part of the disk radiates mostly X rays, while the cooler, outer portion radiates less-energetic, ultraviolet light. Researchers had already observed that ions in the outer part of disks absorb some of the ultraviolet light. This process accelerates the ions outward in a wind that ejects annually as much material from a black hole as the sun contains. Astronomers had inferred the existence of a more energetic wind generated by inner-disk ions that absorb X rays but had no direct evidence for it. In the new observations, reported at a meeting of the American Astronomical Society The American Astronomical Society (AAS, sometimes pronounced "double-A-S") is a US society of professional astronomers and other interested individuals, headquartered in Washington, DC. in Mont Tremblant, Quebec, Chartas' group took advantage of a type of gravitational mirage. A cluster of galaxies cluster of galaxies Gravitationally bound grouping of galaxies, numbering from the hundreds to the tens of thousands. Large clusters of galaxies often exhibit extensive X-ray emission from intergalactic gas heated to tens of millions of degrees. lying between each quasar and Earth creates the mirage. Each cluster acts as a magnifying lens, greatly brightening a quasar's light. Studying the amplified light of quasar APM (Advanced Power Management) A programming interface (API) from Intel and Microsoft for battery-powered computers that lets programs communicate power requirements to slow down and speed up components. See ACPI. APM - Advanced Power Management 08279+525 with NASA's Chandra X-ray Observatory Chandra X-ray Observatory U.S. X-ray space telescope. It was named after astrophysicist Subrahmanyan Chandrasekhar and was launched into orbit in 1999. Its mirror, with an aperture of 1.2 m (4 ft) and a focal length of 10 m (33 ft), produces unprecedented resolution. and quasar PG1115+080 with the European Space Agency's XMM-Newton satellite, Chartas' team detected a wind of inner-disk ions. The observations mark the first time that astronomers have found a wind from a black hole's inner disk transporting oxygen, carbon, and iron ions into space. These elements are among the building blocks of future star generations and of life. Begelman suspects that such winds could be widespread among black holes, not just those with quasars. He suggests that when hard-to-detect black holes, like the one at the Milky Way's center, gorge on gas, they convert most of their radiation into superfast winds instead of producing fireworks fireworks: see pyrotechnics. fireworks Explosives or combustibles used for display. Of ancient Chinese origin, fireworks evidently developed out of military rockets and explosive missiles and accompanied the spread of military explosives westward to . Black hole winds may be linked to another type of galactic wind. Last year, researchers reported that many galaxies in the early universe generated winds that blew material from one galaxy to another (SN: 4/20/02, p. 244). Slower than the black hole winds but covering a wider area, these winds were probably driven by a string of supernovas, the explosions of massive stars. Tom Abel of Penn State, not a member of Chartas' group, speculates that supernova-driven winds were so efficient because winds from a supermassive black hole had already cleared a path through the galaxy. |
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