Pebbles from heaven: tracking planets in the making.Recording radio waves Radio waves Electromagnetic energy of the frequency range corresponding to that used in radio communications, usually 10,000 cycles per second to 300 billion cycles per second. from the region around a young star, astronomers have for the first time documented a key step in the rocky road to planethood: making pebbles. The standard recipe for planet formation starts with a disk of gas, dust, and ice swirling around a newborn star. Particles within the disk coalesce 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 nuggets and then ever-larger clumps, which over several million years grow into a planet. Although astronomers have found dusty disks around many young stars, they had never before seen direct evidence that dust grains actually gather into pebbles. To detect the clumps, David Wilner of the Harvard-Smithsonian Center for Astrophysics The Harvard-Smithsonian Center for Astrophysics (CfA) is located in Cambridge, Massachusetts. It consists of the Harvard College Observatory and the Smithsonian Astrophysical Observatory. The Center is located at 60 Garden Street. in Cambridge, Mass., and his colleagues relied on the Very Large Array (VLA VLA abbr. Very Large Array ), a network of radio telescopes near Socorro, N.M. The array picks up centimeter-long radio wave emissions, the radiation that centimeter-size pebbles would tend to emit. Besides choosing the best detector, the team had to find the right star. It had to be young enough to still have a planet-forming disk but old enough to be past the time when radio emissions from the star's own early growth would confound signals from the disk. At 10 million years of age, TW Hydrae fit the bill. It's part of a group of young stars that lies 180 light-years from Earth. The team's observations indicate that particles with a diameter of 1.0 to 1.4 cm lie within the disk that surrounds TW Hydrae, Wilner and his colleagues report in the June 20 Astrophhisical JournaI Letters. The disk extends to more than four times Pluto's distance from the sun and is heavy enough to make several planets. "Their detection of the disk with the VLA at radio wavelengths is trailblazing trail·blaz·ing adj. Suggestive of one that blazes a trail; setting out in a promising new direction; pioneering or innovative: trailblazing research; a trailblazing new technique. and definitely exploits the potential of our radio telescopes to understand planet formation" comments Paul Kalas of the University of California, Berkeley The University of California, Berkeley is a public research university located in Berkeley, California, United States. Commonly referred to as UC Berkeley, Berkeley and Cal . Additional evidence hints that at least one planet has already formed around TW Hydrae, Wilner says. Using previous infrared observations of the disk, Nuria Calvet of Harvard-Smithsonian created computer simulations suggesting that there's a gap in the inner part of the disk. The gap would extend to a distance similar to the diameter of the asteroid belt in our solar system. A planet sweeping away dust might have cleared such a gap, the team asserts. The pebble-size debris is relatively cold, indicating that it doesn't reside any closer to the star than approximately the distance between Jupiter and the sun, notes Kalas KALAS Korean Association for Laboratory Animal Science . "This could mean that the pebbles [closer to the star] have become boulders and the boulders have become planets," he says. "This is one of the of the most promising systems to search for baby planets." Ben Zuckerman 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. cautions that a strong wind from the star--rather than the gravity of a planet--could have created an inner gap in the disk. But regardless of whether or not TW Hydrae harbors full-grown planets, "it's nice to have the observational confirmation [of dust coalescing coalescing (kō  les´ing),n a joining or fusing of parts. into pebbles] that we all believed was going on," he adds. |
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