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1 magnetron wnękowy
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2 oyuklu magnetron
cavity magnetron -
3 резонаторный магнетрон
Русско-английский политехнический словарь > резонаторный магнетрон
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4 резонаторный магнетрон
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5 резонаторный магнетрон
Русско-английский военно-политический словарь > резонаторный магнетрон
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6 многорезонаторный магнетрон
Русско-английский политехнический словарь > многорезонаторный магнетрон
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7 многорезонаторный магнетрон
cavity magnetron, multicavity magnetronРусско-английский словарь по электронике > многорезонаторный магнетрон
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8 многорезонаторный магнетрон
cavity magnetron, multicavity magnetronРусско-английский словарь по радиоэлектронике > многорезонаторный магнетрон
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9 резонаторен магнетрон
cavity magnetroncavity magnetronsБългарски-Angleščina политехнически речник > резонаторен магнетрон
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10 магнетрон
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11 Boot, Henry Albert Howard
[br]b. 29 July 1917 Birmingham, Englandd. 8 February 1983 Cambridge, England[br]English physicist who, with John Randall, invented the cavity magnetron used in radar systems.[br]After secondary education at King Edward School, Birmingham, Boot studied physics at Birmingham University, obtaining his BSc in 1938 and PhD in 1941. With the outbreak of the Second World War, he became involved with Randall and others in the development of a source of microwave power suitable for use in radar transmitters. Following unsuccessful attempts to use klystrons, they turned to investigation of the magnetron, and by adding cavity resonators they obtained useful power on 21 February 1940 at a wavelength of 9.8 cm. By May a cavity magnetron radar system had been constructed at TRE, Swanage, and in September submarine periscopes were detected at a range of 7 miles (11 km).In 1943 the physics department at Birmingham resumed its research in atomic physics and Boot moved to BTH at Rugby to continue development of magnetrons, but in 1945 he returned to Birmingham as Nuffield Research Fellow and helped construct the cyclotron there. Three years later he took up a post as a Principal Scientific Officer (PSO) at the Services Electronic Research Laboratories at Baldock, Hertfordshire, becoming a Senior PSO in 1954. He remained there until his retirement in 1977, variously carrying out research on microwaves, magnetrons, plasma physics and lasers.[br]Principal Honours and DistinctionsRoyal Society of Arts Thomas Gray Memorial Prize 1943. Royal Commission Inventors Award 1946. Franklin Institute John Price Wetherill Medal 1958. City of Pennsylvania John Scott Award 1959. (All jointly with Randall.)Bibliography1976, with J.T.Randall, "Historical notes on the cavity magnetron", Transactions of the Institute of Electrical and Electronics Engineers ED-23: 724 (provides an account of their development of the cavity magnetron).Further ReadingE.H.Dix and W.H.Aldous, 1966, Microwave Valves.KFBiographical history of technology > Boot, Henry Albert Howard
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12 Randall, Sir John Turton
SUBJECT AREA: Medical technology[br]b. 23 March 1905 Newton-le-Willows, Lancashire, Englandd. 16 June 1984 Edinburgh, Scotland[br]English physicist and biophysicist, primarily known for the development, with Boot of the cavity magnetron.[br]Following secondary education at Ashton-inMakerfield Grammar School, Randall entered Manchester University to read physics, gaining a first class BSc in 1925 and his MSc in 1926. From 1926 to 1937 he was a research physicist at the General Electric Company (GEC) laboratories, where he worked on luminescent powders, following which he became Warren Research Fellow of the Royal Society at Birmingham University, studying electronic processes in luminescent solids. With the outbreak of the Second World War he became an honorary member of the university staff and transferred to a group working on the development of centrimetric radar. With Boot he was responsible for the development of the cavity magnetron, which had a major impact on the development of radar.When Birmingham resumed its atomic research programme in 1943, Randall became a temporary lecturer at the Cavendish Laboratory in Cambridge. The following year he was appointed Professor of Natural Philosophy at the University of St Andrews, but in 1946 he moved again to the Wheatstone Chair of Physics at King's College, London. There his developing interest in biophysical research led to the setting up of a multi-disciplinary group in 1951 to study connective tissues and other biological components, and in 1950– 5 he was joint Editor of Progress in Biophysics. From 1961 until his retirement in 1970 he was Professor of Biophysics at King's College and for most of that time he was also Chairman of the School of Biological Sciences. In addition, for many years he was honorary Director of the Medical Research Council Biophysics Research Unit.After he retired he returned to Edinburgh and continued to study biological problems in the university zoology laboratory.[br]Principal Honours and DistinctionsKnighted 1962. FRS 1946. FRS Edinburgh 1972. DSc Manchester 1938. Royal Society of Arts Thomas Gray Memorial Prize 1943. Royal Society Hughes Medal 1946. Franklin Institute John Price Wetherill Medal 1958. City of Pennsylvania John Scott Award 1959. (All jointly with Boot for the cavity magnetron.)Bibliography1934, Diffraction of X-Rays by Amorphous Solids, Liquids \& Gases (describes his early work).1953, editor, Nature \& Structure of Collagen.1976, with H.Boot, "Historical notes on the cavity magnetron", Transactions of the Institute of Electrical and Electronics Engineers ED-23: 724 (gives an account of the cavity-magnetron development at Birmingham).Further ReadingM.H.F.Wilkins, "John Turton Randall"—Bio-graphical Memoirs of Fellows of the Royal Society, London: Royal Society.KFBiographical history of technology > Randall, Sir John Turton
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13 магнетрон
maggie, magnetron* * *магнетро́н м.
magnetronмагнетро́н генери́рует [m2]-вид колеба́ний — a magnetron operates in the -modeмагнетро́н генери́рует колеба́ния диапазо́на СВЧ — a magnetron generates microwave powerмагнетро́н искри́т — a magnetron sparksмагнетро́н переска́кивает внутри́ [на протяже́нии] и́мпульса — a magnetron shifts its mode (changes its mode during a pulse)магнетро́н переска́кивает от и́мпульса к и́мпульсу — a magnetron jumps its mode (changes its mode from one pulse to the next)магнетро́н (пропуска́ет) и́мпульс — a magnetron skips a pulseмагнетро́н рабо́тает в и́мпульсном режи́ме — a magnetron is operated [operates] under pulsed conditionsмагнетро́н рабо́тает в режи́ме непреры́вной генера́ции [непреры́вного генери́рования] — a magnetron is operated [operates] under continuous-wave [CW] conditionsтренирова́ть магнетро́н — season a magnetronмагнетро́н бегу́щей волны́ — traveling wave [TW] magnetronбипериоди́ческий магнетро́н — biperiodic magnetronбло́чный магнетро́н — packaged magnetronдвухцо́кольный магнетро́н — double-ended magnetronи́мпульсный магнетро́н — pulsed magnetronкоаксиа́льный магнетро́н — coaxial-cylinder magnetronмногока́мерный магнетро́н — mulicavity magnetronмногорезона́торный магнетро́н — multicavity magnetronмагнетро́н, настра́иваемый напряже́нием — voltage-tunable magnetronмагнетро́н непреры́вной генера́ции — continuous-wave [CW] magnetronобращё́нный магнетро́н — inverted magnetronодноцо́кольный магнетро́н — single-end magnetronперестра́иваемый магнетро́н — tunable magnetronравнорезона́торный магнетро́н — vane-type cavity magnetronравнорезона́торный магнетро́н со свя́зками — strapped vane-type magnetronразнорезона́торный магнетро́н — rising-sun magnetronмагнетро́н с замедля́ющей систе́мой встре́чно-штырево́го ти́па — interdigital magnetronмагнетро́н с коаксиа́льным резона́тором — coaxial-cylinder magnetronмагнетро́н со свя́зками — strapped magnetronмагнетро́н со сфери́ческими резона́торами — hole-and-slot magnetronмагнетро́н с отрица́тельным сопротивле́нием — negative-resistance magnetronмагнетро́н с разрезны́м ано́дом — split-a node magnetronмагнетро́н ти́па бе́личьего колеса́ — squirrel-cage magnetronщелево́й магнетро́н — slot magnetron* * * -
14 магнетрон с резонаторной перестройкой частоты
1) Engineering: single tuning cavity magnetron2) Electronics: cavity-controlled magnetron, single-tuning cavity magnetronУниверсальный русско-английский словарь > магнетрон с резонаторной перестройкой частоты
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15 многорезонаторный магнетрон
1) Engineering: cavity magnetron, multicavity magnetron, multisectional magnetron2) Electronics: multiple-circuit magnetron, multiresonator magnetron3) Makarov: resonator magnetron, vane-type magnetronУниверсальный русско-английский словарь > многорезонаторный магнетрон
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16 многорезонаторный магнетрон
Русско-английский новый политехнический словарь > многорезонаторный магнетрон
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17 резонаторный магнетрон
1) Engineering: cavity magnetron2) Makarov: resonator magnetronУниверсальный русско-английский словарь > резонаторный магнетрон
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18 равнорезонаторный магнетрон
Русско-английский технический словарь > равнорезонаторный магнетрон
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19 магнетрон, обеспечивающий большой выход энергии
Physics: cavity magnetronУниверсальный русско-английский словарь > магнетрон, обеспечивающий большой выход энергии
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20 многорезонаторный магнитрон
Electronics: cavity magnetronУниверсальный русско-английский словарь > многорезонаторный магнитрон
См. также в других словарях:
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