Taking a shine to number 100. (Physics).Scientists have for the first time literally shed light on properties of the radioactive element fermium--a metal discovered some 50 years ago. Spectroscopy spectroscopy Branch of analysis devoted to identifying elements and compounds and elucidating atomic and molecular structure by measuring the radiant energy absorbed or emitted by a substance at characteristic wavelengths of the electromagnetic spectrum (including gamma ray, , or the measurement of the wavelengths of light that materials emit or absorb, is a standard way to probe characteristics of materials, including what energy levels their electrons can assume. However, spectroscopy of heavy elements, such as artificially made fermium fermium (fûr`mēəm) [for Enrico Fermi], artificially produced radioactive chemical element; symbol Fm; at. no. 100; mass no. of most stable isotope 257; m.p. 1,527°C;; b.p. and sp. gr. unknown; valence +2, +3. , element number 100, is difficult because such substances are scarce and decay soon after they're made. Now, Harmut Backe and Norbert Trautmann of the University of Mainz in Germany and their colleagues report using their own particularly sensitive method to measure wavelengths of light absorbed by some of the element's electrons. The team studied less than 2 billionths of a gram of fermium painstakingly produced by Oak Ridge Oak Ridge, city (1990 pop. 27,310), Anderson and Roane counties, E Tenn., on Black Oak Ridge and the Clinch River; founded by the U.S. government 1942, inc. as an independent city 1959. (Tenn.) National Laboratory and then flown to Germany. The findings, reported in the April 25 Physical Review Letters Physical Review Letters is one of the most prestigious journals in physics.[1] Since 1958, it has been published by the American Physical Society as an outgrowth of The Physical Review. , agree with somewhat controversial calculations, based on relativity, by which scientists predicted the wavelengths that fermium's fast-moving electrons might absorb. Besides probing fermium further, the team plans next to study element number 101, mendelevium mendelevium (mĕndəlāv`ēəm), artificially produced radioactive chemical element; symbol Md; at. no. 101; mass no. of most stable isotope 258; m.p. 827°C;; b.p. and sp. gr. unknown; valence +1, +2, +3. , Backe says.--P.W. |
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