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in two dimensions had to be extremely smooth and precise. The MIT Radiation Laboratory selected Ward-Leonard to equip the famous radar SCR-584 in 1942

September 30, 2011) was an American physicist. He was a member of the MIT Radiation Laboratory during World War II, responsible for the development and deployment

World War II, he worked on microwave radar development at the MIT Radiation Laboratory. He worked briefly after the war at the Los Alamos National Laboratory

physics at Reed College. During World War II, he was employed at the MIT Radiation Laboratory where he worked on the radar IFF system. In 1945 he joined the

in 1942, and after graduation, he joined the Antenna Group of MIT Radiation Laboratory as a staff member. Mason went on to earn his S.M. and Ph.D. in

MIT Radiation Laboratory Series (McGraw-Hill Book Company, Inc., New York, 1950; J. L. Lawson and G. E. Uhlenbeck, Threshold Signals, MIT Radiation Laboratory

worked on radar at the Massachusetts Institute of Technology (MIT) Radiation Laboratory (RadLab) and on the Manhattan Project. After the war, he served

done partly at the Bell Laboratories and in association with the MIT Radiation Laboratory, was significant in the development of radar. In 1950, Slater founded

on p. vii. [citation needed] As part of his wartime work at the MIT Radiation Laboratory he did significant, still useful work on radar propagation that

administration was established. The new institution came to be called the MIT Radiation Laboratory, or the "Rad Lab". As wartime shortages in Britain increased, many

direction of Nobel laureate Arthur Compton. While working at the MIT Radiation Laboratory from 1941 to 1948, he helped build a microwave linear electron

physics at Yale University at the age of 19. After working at the MIT Radiation Laboratory, he earned his MS degree at Auburn University in 1948. In 1949

professor of physics in 1968. From 1942 to 1946, he joined the MIT Radiation Laboratory in Cambridge, Massachusetts where he helped in that gigantic effort

he spent about half of his time consulting with groups in the MIT Radiation Laboratory. He took over administrative responsibility of the Communications

discovers muons with E. C. Stevenson at Harvard University 1940–1945: MIT Radiation Laboratory, Researcher 1953: elected to the National Academy of Sciences 1955–1960:

the magazine Electronics. During World War II, he worked at the MIT Radiation Laboratory and traveled overseas installing LORAN sites. After the war, he

postdoctoral fellow. During World War II, Whitford worked in the MIT Radiation Laboratory. In 1948, he succeeded Stebbins as director of the Washburn Observatory

radar during WWII. In 1945 he travelled to the US, visiting the MIT Radiation Laboratory, Bell Laboratories, and the Naval Research Laboratory. After the

obtained a doctorate in physics in 1938. In 1942, Sherr joined the MIT Radiation Laboratory, where he worked to develop new airborne radar systems. In 1944

 1028–1030. August 1977. (Abstract) Glasoe, G. Norris, Lebacqz, Jean V., "Pulse Generators", McGraw-Hill, MIT Radiation Laboratory Series, Volume 5, 1948.

1987292. Ridenour, Louis N. (1947). Radar System Engineering. MIT Radiation Laboratory Series. Vol. 1. New York: McGraw-Hill. p. 629. Dogaru, Traian (March

technologies. One, the cavity magnetron was a breakthrough for radar. The MIT Radiation Laboratory was formed to develop radar and this led to gun-laying and aircraft

George E. Jr.; Wallman, Henry (1948), Vacuum Tube Amplifiers, MIT Radiation Laboratory Series 18, New York: McGraw-Hill.. Reviews: Ridenour, Louis N.

remarkable speed the US military set up a special laboratory, the MIT Radiation Laboratory for the development of centimetre-wave radar, and Bowen collaborated

turned his attention to microwave radar and, working with the MIT Radiation Laboratory and the Bell Telephone Laboratories, made invaluable contributions

G. N. Glasoe and J. V. Lebacqz. Pulse Generators, volume 5 of MIT Radiation Laboratory Series. McGraw-Hill, New York, 1948, pp. 175-189. D. Bradley, J

During World War II, he served as a special representative of the MIT Radiation Laboratory to the federal Office of Scientific Research and Development in

"§2 of chapter 2 and §1–7 of chapter 7", Vacuum Tube Amplifiers, MIT Radiation Laboratory Series, vol. 18, New York: McGraw-Hill., pp. xvii+743. Wallman

received a Presidential Certificate of Merit for his work at the MIT Radiation Laboratory. Bainbridge returned to Harvard after the war, and initiated the

Instead, they settled on a design that was being developed at the MIT Radiation Laboratory. This was a dual-gun electron tube. One gun produced a sharply-focused

World". Philanthropy. Retrieved 2012-06-05. "IEEE History Center: MIT Radiation Laboratory". IEEE. Retrieved 2008-06-09. "Research Laboratory of Electronics

His invention of the line type pulse modulator (ref vol 5 of MIT Radiation Laboratory series) was a major contribution to high-powered pulse radars,

Retrieved 2017-07-11. Blackburn, John F. (1949). Components Handbook. MIT Radiation Laboratory Series. Vol. 17. McGraw-Hill. p. 38. Van Dyck, Arthur F. (March

Silver, Samuel, ed. (1949). Microwave Antenna Theory and Design. MIT Radiation Laboratory Series. Vol. 12. New York, NY: McGraw-hill Book Company. Bibcode:1949matd

DuBridge (1901–1994), American nuclear physicist, Director of MIT Radiation Laboratory and latterly of Caltech MPC · 5678 5679 Akkado 1989 VR Akka cave

target designator/rapid volume search radar jointly developed by MIT Radiation Laboratory and Naval Research Laboratory. AN/SPS-4 Surface and low altitude

answer the U.S. was looking for, and it led to the creation of the MIT Radiation Laboratory (Rad Lab). Before the end of 1940, the Rad Lab was started at MIT

Tizard mission, and had been instrumental in the creation of the MIT Radiation Laboratory, whose progress by November 1940 he described as "remarkable".