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This short interview touches briefly on Erwin Hahn's education at Juniata College, Purdue University, and the University of Illinois; initial interest in nuclear magnetic resonance; his postdoctoral years with Felix Bloch's group at Stanford University; and his three years as a research scientist with IBM. Hahn also comments briefly on his consultantship with Hughes' maser group; his work on self-induced transparency; and his collaboration with Richard Brewer at IBM.
Family background and childhood in Germany, 1919-1934; emigration to U.S. and undergraduate study and life at Princeton University, 1934-1938. Graduate work at California Institute of Technology, 1938-1942; work with Jesse W. M. DuMond, course load, and importance of his thesis. War work at California Institute of Technology; problems because of enemy alien status; work on firing error indicators. War work at Los Alamos Scientific Laboratory: atomic bomb explosion, feelings concerning implications.
<p>Then, the project finally got authorized in 1961 — but again after a rather amusing set of coincidences. At that time the Stanford project was sort of known as the Republican project because Eisenhower had proposed it to a Democratic Congress. At that time there was a project that the Democrats wanted in Congress which the Republican administration did not want. This was for the Hanford Reactor to generate power into the electrical net, because it was considered to be socialized electricity by the Republicans, to have power generated by a production reactor.
Early influences and education; A.B. from Willamette University in physics and math, 1926; fellowship and M.A. from Stanford University; graduate study at Columbia University on x-rays. Work at Bell Laboratories, starting 1929, on vacuum tube amplifiers with John B. Johnson; carbon microphones, semiconductors and the solar battery; work atmosphere and supervisors, Peter J. W. Debye; technical colloquia. History of “thermistors” and transistors. First color TV demonstration. Work during World War II on bombing using radar techniques and infrared.
Early family life and early education in Toronto during the Depression. Interest in radio engineering; math-physics scholarship to University of Toronto 1937. During World War II (from 1941) teaching Army, Air Force, Navy students in basic physics. Masters degree with Arnold Pitt during that period. Work with G. Byers on microwave guide antennas. Poor graduate education at Toronto. Interest in nuclear physics; constructs atomic beam light source; 'his definition of a diatomic molecule. Receives Carbide and Carbon Chemicals Corporation post-doc fellowship (Rabi); work with C.
Testing klystrons at Wright Field for blind landing, at request of Wilmer L. Burrow of Massachusetts Institute of Technology; Sperry Gyroscope research contract with Stanford University, San Carlos and Garden City plants. Contact with solid state physics through use of old-fashion crystal detectors in the klystron. Bell Laboratories and other centers for research in microwaves; John Pierce and other scientists in semiconductor work.