Nearby star may have its own asteroid belt.Observations of warm dust swaddling swad·dle tr.v. swad·dled, swad·dling, swad·dles 1. To wrap or bind in bandages; swathe. 2. To wrap (a baby) in swaddling clothes. 3. To restrain or restrict. n. a young, nearby star suggest that astronomers have found the first asteroid belt outside the solar system solar system, the sun and the surrounding planets, natural satellites, dwarf planets, asteroids, meteoroids, and comets that are bound by its gravity. The sun is by far the most massive part of the solar system, containing almost 99.9% of the system's total mass. . And where there are asteroids This is a list of numbered minor planets, nearly all of them asteroids, in sequential order. As of late September 2007 there are 164,612 numbered minor planets, and many more not yet numbered. Most asteroids are ordinary and not particularly noteworthy. , there could be planets. Several features of the dust surrounding the star Zeta Leporis indicate that the particles were generated by a massive collection of asteroids smashing into each other, says Christine H. Chen of the University of California, Los Angeles UCLA comprises the College of Letters and Science (the primary undergraduate college), seven professional schools, and five professional Health Science schools. Since 2001, UCLA has enrolled over 33,000 total students, and that number is steadily rising. . The material's temperature, mass, and proximity to the youthful star are all indicators that "the system we observed around Zeta Leporis is similar to what we think occurred in the early years [of the solar system] when planets and asteroids were created," says study collaborator Michael Jura of UCLA UCLA University of California at Los Angeles UCLA University Center for Learning Assistance (Illinois State University) UCLA University of Carrollton, TX and Lower Addison, TX . Chen and Jura reported the finding last week in Pasadena, Calif., 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. . Zeta Leporis lies some 70 light-years from Earth, and astronomers estimate its age to be 50 million to 500 million years. That's young enough that the star could still be forming planets and asteroids but old enough that any dust that surrounded the star at its birth would already have coalesced co·a·lesce intr.v. co·a·lesced, co·a·lesc·ing, co·a·lesc·es 1. To grow together; fuse. 2. To come together so as to form one whole; unite: into larger objects or spiraled into the star, Chen notes. Indeed, she and Jura calculate that any dust grains orbiting Zeta Leporis would last only about 20,000 years before being absorbed by the star. The observed dust must therefore have come from some reservoir that continually replenishes the grains, Chen asserts. The most likely source, she notes, is collisions between large bodies, such as asteroids. In our solar system, collisions between members of the asteroid belt replenish dust in the region where the inner, terrestrial planets reside. Astronomers have known since 1983 that dust orbits Zeta Leporis. That year, NASA's Infrared Astronomy Satellite detected a larger-than-expected infrared signal from the star's vicinity. That's a sign of dust, which absorbs visible light from the star that it surrounds and reemits the radiation at infrared wavelengths. Last February, Chen and Jura examined Zeta Leporis with an infrared camera on one of the Keck telescopes atop Mauna Kea in Hawaii. The camera revealed that the dust is confined to a region around the star no larger than 6.1 astronomical units (AU) in radius and could lie as close as 2.5 AU. One AU is the distance between the sun and Earth. The belt of asteroids in our solar system lies between 2.1 and 3.3 AU from the sun. Chen and Jura calculate that to produce the amount of dust they observed, the asteroids orbiting Zeta Leporis must have a total mass about 200 times that of all the rocky denizens of the solar system's asteroid belt. An asteroid belt circling Zeta Leporis "is a solid inference" of the new findings, comments Mark V. Sykes of the University of Arizona (body, education) University of Arizona - The University was founded in 1885 as a Land Grant institution with a three-fold mission of teaching, research and public service. in Tucson. He suggests that the gravity of a planet as massive as Jupiter may be required to stir up the belt, generating the collisions necessary to produce the amount of dust Chen and Jura observed. Trying to find evidence of such a massive planet indirectly, by studying the wobble wobble /wob·ble/ (wob´'l) to move unsteadily or unsurely back and forth or from side to side. See under hypothesis. wob·ble n. 1. it would induce in the motion of Zeta Leporis, could prove difficult because the star's rapid rotation would interfere with those observations, Sykes says. As telescope optics continues to improve, however, astronomers might be able to discern a planet by direct imaging, he adds. |
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