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Recollections of physics community in 1920s and early 1930s; opportunities for physics work in Europe; awareness of political climate in Germany (1932); relationship with Werner Heisenberg at University of Leipzig; awarded Rockefeller Fellowship to study at University of Rome; contacts with physicists after Leipzig and before Rome; John Von Neumann's list of refugee physicists; offered appointment to position at Stanford University; visit to University of Copenhagen and Niels Bohr's advice to accept appointment; relinquishing of second half of fellowship; influenced by Bohr, Heisenberg and others; Bloch's influence on Enrico Fermi leading to theory of neutrino; met by Gregory Breit on arrival in New York; initial teaching duties at Stanford; theoretical physics in America in 1934; distinctions between Europe and America on theory vs. experiment; seminars with J. Robert Oppenheimer; first interest in experimental work; early research on neutrons; recollections of 1935 Michigan Summer School; started Stanford Summer School in 1936 with George Gamow as first visitor (Fermi 1937, Isidor Isaac Rabi 1938, Victor F. Weisskopf 1939); origin of idea of neutron polarization; 1936 paper proposing neutron magnetic moment experiment; 1937 Galvani Conference in Bologna; use of Berkeley 37-inch cyclotron for magnetic moment experiment; decision to build cyclotron at Stanford; construction supported by Rockefeller Foundation; initial involvement with Manhattan Project; recollections of receiving news of fission; neutron work for Manhattan Project at Stanford; marriage in 1940; work on implosion at Los Alamos Scientific Laboratory; reasons for leaving Los Alamos; work on radar at Harvard University; first ideas on measuring nuclear magnetic resonance (NMR); helpfulness of radar experience in NMR work; William W. Hansen and the klystron; fate of the first Stanford cyclotron; knowledge of Edward M. Purcell's work on NMR; publication of initial results, 1946-1948; Rabi and Polykarp Kusch's work on molecular beams; development of NMR field; Nobel Prize award; association with CERN, 1954; contributions of greatest impact.
Born 1910 Rhode Island. Engineering interest at an early age; Massachusetts Institute of Technology undergraduate, aeronautical engineering; graduate studies in physics (John Slater, Philip Morse); assistant to Stark Draper, 1932-1934; fellowship at University of Cambridge (Professor Ralph H. Fowler); internal conversion of x-rays (with Geoffrey I. Taylor, 1934); MIT Ph.D. (P. Morse) scattering of slower electrons; William Shockley; junior fellow at Harvard University, 1936-1938; work with Ivan Getting on an electrostatic generator; Harvard Society of Fellows; Bell Laboratories, 1939 (Shockley-Fisk fission work); war work mostly electronics; interaction with industrial research and with universities, 1946 reorganization of physics department forming a solid state physics group; team representing various disciplines to study fundamentals of solid state (Fisk associate director); Director of Research, U.S. Atomic Energy Commission, 1947; professor at Harvard, 1948; Director of Physics Research at Bell Labs, 1949; President of Bell Labs. Also prominently mentioned are: John Bardeen, Oliver E. Buckley, Karl Taylor Compton, Frank Jewett, J. B. Johnson, Ralph Johnson, Mervin J. Kelly, and Gerald Leondus Pearson.
Born in London 1910; Childhood in Palo Alto, California; undergraduate at UCLA, Caltech, graduate school MIT (Slater, thesis advisor); 1936 to Bell Labs; war related work at Whippany (circa 1 year), patents on radar ideas (Columbia U. Project); fission work with Fisk (National Bureau of Standards); the transistor; Solid State Physics group organized 1945 at Bell Labs under Shockley and Stan Morgan.