Rare find: odd type of ammonia detected in space. (Science News This Week).An unusual form of ammonia has turned up in space, upending scientists' long-held belief that this substance is too rare to detect there. The finding could help astronomers Famous astronomers and astrophysicists include: Directory: A B C D E F G H I J K L M N O P Q R S T U V W X Y Z A
A molecule of ammonia consists of one nitrogen atom linked to three hydrogen atoms. Unlike ordinary ammonia used for household cleaning, however, the newly found molecule doesn't contain typical hydrogen. Instead, it has three atoms of deuterium deuterium (d  tēr`ēəm), isotope of hydrogen with mass no. 2. The deuterium nucleus, called a deuteron, contains one proton and one neutron. , a heavy isotope of hydrogen. Throughout the galaxy, there's about 1 atom of deuterium for each 100,000 atoms of ordinary hydrogen. An international team of scientists, including Darek Lis of the California Institute of Technology California Institute of Technology, at Pasadena, Calif.; originally for men, became coeducational in 1970; founded 1891 as Throop Polytechnic Institute; called Throop College of Technology, 1913–20. in Pasadena, identified the unusual ammonia in the Milky Way's Barnard 1 cloud, located about 1,000 light years from Earth. By using the Caltech Submillimeter Observatory on 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. , the researchers detected triply deuterated ammonias characteristic radio emissions. Once in ammonia, deuterium atoms "prefer" to stay there when temperatures are extremely low, says Lis. Nonetheless, "it's surprising that molecules can get so heavily deuterated," comments Alwyn Wootten of the National Radio Astronomy Observatory National Radio Astronomy Observatory (NRAO), federal observatory for radio astronomy, founded in 1956 and operated under contract with the National Science Foundation by Associated Universities, Inc., a group of major universities. in Charlottesville, Va. The radio signature of ammonia incorporating three deuteriums was first determined more than 3 decades ago in laboratory experiments. It was "known and forgotten," comments Eric Herbst of Ohio State University Ohio State University, main campus at Columbus; land-grant and state supported; coeducational; chartered 1870, opened 1873 as Ohio Agricultural and Mechanical College, renamed 1878. There are also campuses at Lima, Mansfield, Marion, and Newark. in Columbus. No one has previously used the signature to look for the molecule in space because astronomers didn't believe a measurable concentration of the heavy ammonia was out there. That bias gave way several years ago, when astrochemists discovered molecules of ammonia and formaldehyde formaldehyde (fôrmăl`dəhīd'), HCHO, the simplest aldehyde. It melts at −92°C;, boils at −21°C;, and is soluble in water, alcohol, and ether; at STP, it is a flammable, poisonous, colorless gas with a suffocating containing two deuterium atoms, adds Lis. The discovery of heavily deuterated molecules in space could help scientists understand the chemistry of star-forming regions, says Herbst. "Molecules tell us more than anything else about these regions," he notes. Yet before triply deuterated ammonia can provide information on chemistry in space, astronomers must determine how widespread the molecule is, says Wootten. Lis and his coworkers, who reported their discovery in the May 20 Astrophysical Journal The Astrophysical Journal, often abbreviated to ApJ, is a scientific journal covering astronomy and astrophysics. It was founded in 1895 by George Ellery Hale and James E. Keeler. It currently (October 2006) publishes three issues per month, with 500 pages per issue. Letters, now plan to look for the molecule elsewhere in the universe and also measure less-deuterated versions of ammonia in the Barnard 1 cloud. In another logical step, says Herbst, researchers will probably start searching for molecules, such as methanol, containing four deuterium atoms. |
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