Newfound Galaxy Goes the Distance.Astronomers have discovered a galaxy so remote that the light reaching Earth left the body some 13.6 billion years ago. That makes the find the most distant object ever detected. If the universe is now 14.5 billion years old, then astronomers are seeing the galaxy as it appeared when the cosmos was just one-sixteenth of its current age, says codiscoverer Richard G. McMahon of the University of Cambridge in England. Appearing as a faint red dot, the object is slightly more distant and hails from an era slightly farther back in time--about 157 million years closer to the Big Bang--than the previous record holder, he adds. That object, reported just last month, is a brilliant quasar quasar (kwā`sär), one of a class of blue celestial objects having the appearance of stars when viewed through a telescope and currently believed to be the most distant and most luminous objects in the universe; the name is shortened from , the beacon that resides at the core of a galaxy. "If you want to model the universe, you want to know when the first galaxies formed," notes McMahon. "And so what we're trying to do is find when to start the stopwatch. "This is part of a progressive program to go out to greater and greater distances," he adds. "In the same way that computers get faster every year," new technology has allowed astronomers to probe ever deeper into space and find more distant objects, McMahon says. Astronomers not on the discovery team mentioned the find last week in Cambridge, Mass., at a conference on the earliest cosmic structures. McMahon, who observed the galaxy with Esther M. Hu of the University of Hawaii (body, education) University of Hawaii - A University spread over 10 campuses on 4 islands throughout the state. http://hawaii.edu/uhinfo.html. See also Aloha, Aloha Net. in Honolulu, provided further details to SCIENCE NEWS. Even with the world's largest visible-light telescope, the 10-meter Keck II atop Hawaii's Mauna Kea Mauna Kea (mou`nə kā`ə), dormant volcano, 13,796 ft (4,205 m) high, in the south central part of the island of Hawaii. It is the loftiest peak in the Hawaiian Islands and the highest island mountain in the world, rising c. , Hu and McMahon needed help from a cosmic mirage to record the faint galaxy. The mirage is a consequence of one of the more bizarre aspects of gravity: Massive objects bend light. A foreground object such as 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. can act like a zoom lens. The effect makes an object that lies behind the lens appear bigger and brighter. Last fall, Hu and McMahon used Keck to scan a patch of sky near the celestial equator celestial equator: see equatorial coordinate system. . The area contains the massive cluster Abell 370, the first galaxy cluster recognized to act as a gravitational lens gravitational lens n. A massive celestial object, such as a galaxy, whose gravity bends and focuses the light of a more distant object, resulting in a magnified, distorted, or multiple image of the original light source for a distant observer. . Within that patch, the researchers sought--and found--a particular wavelength of light emitted by hydrogen atoms in a galaxy long ago and far away. McMahon estimates that the cluster amplifies the galaxy's light by a factor of 2 to 4, effectively turning Keck's 10-m mirror into a light-gathering device at least twice as big. Theory suggest that as the first massive stars formed, they emitted high-energy radiation that would easily excite hydrogen, the most abundant gas in a galaxy. The excited hydrogen atoms would radiate ra·di·ate v. 1. To spread out in all directions from a center. 2. To emit or be emitted as radiation. ra much of the absorbed energy at the ultraviolet wavelength of 121.6 nanometers, radiation known as Lyman-alpha. The expansion of the universe causes distant objects to recede re·cede 1 intr.v. re·ced·ed, re·ced·ing, re·cedes 1. To move back or away from a limit, point, or mark: waited for the floodwaters to recede. 2. from Earth at high speed and shifts the light they emit to redder, or longer, wavelengths. The more distant the object, the greater the shift, so redshift redshift Displacement of the spectrum of an astronomical object toward longer wavelengths (visible light shifts toward the red end of the spectrum). In 1929 Edwin Hubble reported that distant galaxies had redshifts proportionate to their distances (see provides a direct measurement of distance. Lyman-alpha radiation from the new object detected by Hu and McMahon has shifted to a near-infrared wavelength of 918 nm, revealing its extraordinary distance. Using the same technique, the group previously found other distant galaxies (SN: 5/2/98, p. 280). Another team has reported several galaxies that could turn out to lie even farther away. For now, those findings remain uncertain. The newly discovered galaxy has a redshift of 6.55. Last month, astronomers with the Sloan Digital Sky Survey The Sloan Digital Sky Survey or SDSS is a major multi-filter imaging and spectroscopic redshift survey using a dedicated 2.5-m wide-angle optical telescope at Apache Point Observatory in New Mexico. The project was named after the Alfred P. , a 5-year census of the heavens, reported finding a quasar with a redshift of 5.8. Both distant galaxies and quasars Proper naming of quasars are by Catalogue Entry, Qxxxx±yy using B1950 coordinates, or QSO Jxxxx±yyyy using J2000 coordinates. This page lists quasars.
adj. Being or occurring between galaxies: intergalactic space. in gas that lie between them and Earth. A single galaxy forming so early in cosmic history doesn't pose a problem for theories of how the universe, which began as a smooth, hot soup of particles, could have formed lumpy structures like our Milky Way. "All of our theories of structure formation are statistical and so there will always be the unusually dense region that ... forms a galaxy earlier," notes Michael S. Turner of the University of Chicago. However, he adds, large numbers of such galaxies "would be hard to explain." McMahon says he is developing an infrared filter that will automatically pick out Lyman-alpha light from even more-distant galaxies. "Eventually, we expect the galaxies to disappear because we will have [looked back] to a time when they hadn't yet formed," he says. |
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