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1 Neutron Beta Decay
Physics: NBDУниверсальный русско-английский словарь > Neutron Beta Decay
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2 бета-распад нейтрона
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3 бета-распад нейтрона
Makarov: neutron beta decayУниверсальный русско-английский словарь > бета-распад нейтрона
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4 изотоп
* * *изото́п м.
isotopeизото́п А превраща́ется в результа́те, напр. бе́та-распа́да в изото́п Б — isotope A transforms by, e. g., beta-emission to isotope Bвыделя́ть (чи́стый) изото́п (из сме́си) — isolate a (pure) isotope (from a mixture)изото́п испы́тывает позитро́нный распа́д — the isotope undergoes positron decay, the isotope decays by positron emissionизото́п испы́тывает электро́нный захва́т — the isotope undergoes electron captureобнару́живать изото́п по излуче́нию — detect an isotope by radiationобнару́живать изото́п у, напр. нео́на, ге́лия и т. п. — find isotopes in, e. g., neon, helium, etc.обогаща́ть изото́п — enrich an isotopeразделя́ть изото́пы — separate (the) isotopesсинтези́ровать изото́п — synthesize an isotopeсобира́ть изото́пы в коро́бки ( при электромагнитном разделении) — collect isotopes in collection pots (under electromagnetic separation)изото́п усто́йчив или неусто́йчив к, напр. [m2]бе́та-распа́ду — the isotope is stable or unstable towards, e. g., beta-decayизото́п явля́ется, напр. бе́та-акти́вным — the isotope is, e. g., beta-emittingде́лящийся изото́п — fissionable [fissile] isotopeдолгоживу́щий изото́п — long-lived isotopeдоче́рний изото́п — daughter isotopeесте́ственный изото́п — natural(ly occurring) isotopeиску́сственный изото́п — man-made isotope, transmutation productкороткоживу́щий изото́п — short-lived isotopeлё́гкий изото́п — light isotopeматери́нский изото́п — parent isotopeнейтронодефици́тный изото́п — neutron-deficient isotopeнейтроноизбы́точный изото́п — neutron-excess isotopeнейтронообеднё́нный изото́п — neutron-impoverished isotopeнейтронообогащё́нный изото́п — neutron-rich isotopeнеусто́йчивый изото́п — unstable isotopeприро́дный изото́п — natural(ly occurring) isotopeрадиоакти́вный изото́п — radioactive isotope, radioisotopeизото́п с избы́тком нейтро́нов — neutron-rich isotopeизото́п с недоста́тком нейтро́нов — neutron-deficient isotopeсреднетяжё́лый изото́п — intermediate isotopeстаби́льный изото́п — stable isotopeтяжё́лый изото́п — heavy isotopeусто́йчивый изото́п — stable isotopeчи́стый изото́п — pure isotope -
5 Fermi, Enrico
[br]b. 29 September 1901 Rome, Italyd. 28 November 1954 Chicago, USA[br]Italian nuclear physicist.[br]Fermi was one of the most versatile of twentieth-century physicists, one of the few to excel in both theory and experiment. His greatest theoretical achievements lay in the field of statistics and his theory of beta decay. His statistics, parallel to but independent of Dirac, were the key to the modern theory of metals and the statistical modds of the atomic nucleus. On the experimental side, his most notable discoveries were artificial radioactivity produced by neutron bombardment and the realization of a controlled nuclear chain reaction, in the world's first nuclear reactor.Fermi received a conventional education with a chemical bias, but reached proficiency in mathematics and physics largely through his own reading. He studied at Pisa University, where he taught himself modern physics and then travelled to extend his knowledge, spending time with Max Born at Göttingen. On his return to Italy, he secured posts in Florence and, in 1927, in Rome, where he obtained the first Italian Chair in Theoretical Physics, a subject in which Italy had so far lagged behind. He helped to bring about a rebirth of physics in Italy and devoted himself to the application of statistics to his model of the atom. For this work, Fermi was awarded the Nobel Prize in Physics in 1938, but in December of that year, finding the Fascist regime uncongenial, he transferred to the USA and Columbia University. The news that nuclear fission had been achieved broke shortly before the Second World War erupted and it stimulated Fermi to consider this a way of generating secondary nuclear emission and the initiation of chain reactions. His experiments in this direction led first to the discovery of slow neutrons.Fermi's work assumed a more practical aspect when he was invited to join the Manhattan Project for the construction of the first atomic bomb. His small-scale work at Columbia became large-scale at Chicago University. This culminated on 2 December 1942 when the first controlled nuclear reaction took place at Stagg Field, Chicago, an historic event indeed. Later, Fermi spent most of the period from September 1944 to early 1945 at Los Alamos, New Mexico, taking part in the preparations for the first test explosion of the atomic bomb on 16 July 1945. President Truman invited Fermi to serve on his Committee to advise him on the use of the bomb. Then Chicago University established an Institute for Nuclear Studies and offered Fermi a professorship, which he took up early in 1946, spending the rest of his relatively short life there.[br]Principal Honours and DistinctionsNobel Prize for Physics 1938.Bibliography1962–5, Collected Papers, ed. E.Segrè et al., 2 vols, Chicago (includes a biographical introduction and bibliography).Further ReadingL.Fermi, 1954, Atoms in the Family, Chicago (a personal account by his wife).E.Segrè, 1970, Enrico Fermi, Physicist, Chicago (deals with the more scientific aspects of his life).LRD
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