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Childhood and early education in New York, undergraduate education in philosophy at Columbia College, 1932-1936; years of graduate study in physics at Columbia University, 1936-1937; influence of Isidor I. Rabi, the joint NYU-Columbia seminar in physics; transfer to Cornell University for graduate work in nuclear physics, 1937-1939; influence of Hans Bethe; thesis work on white dwarfs; first teaching position at University of Rochester, joint work with Victor Weisskopf in nuclear physics and particles; remarks on war years, astrophysics, cyclotrons, and other matters; Shelter Island Conferences. Formation of the Federation of American Scientists (F.A.S.) in 1946; Marshak succeeds Robert Wilson as Chairman, 1947. World Federation of Scientific workers, chaired by Frédéric Joliot-Curie, wants to enroll F.A.S. (1947, in Paris meeting). Marshak's work on two-meson theory. F.A.S. issues in the 1950s; the Emergency Committee and F.A.S.; Einstein's interests and views on relation of science to society; comments on J. Robert Oppenheimer; chairmanship at University of Rochester; Lee DuBridge; long-range plan and extensive development of physics department funded through AEC contracts; training of students from abroad such as Okubo, Sudarshan, Messiah, Regge. Last half of interview covers the Rochester conferences. Scientific work during the 1950s, the V-A interaction (George Sudarshan) theory (a.k.a. Feynman-Gell-Mann theory of weak interactions); books and works with graduate students. Travels to Europe and India (Tata Institute), 1953. Accepts City College (CUNY) presidency; reasons for leaving University of Rochester. Also prominently mentioned are: Robert Fox Bacher, Subrahmanyan Chandrasekhar, George Braxton Pegram, Julian R. Schwinger, Edward Teller; Lawrence Radiation Laboratory, and Massachusetts Institute of Technology Radiation Laboratory.
Family background; early interest in mathematics; physics at University of Manchester; Ernest Rutherford's influence; early research under Rutherford at Manchester; examination by Joseph J. Thomson for degree; recollections of associates at Manchester, including Niels Bohr; scholarship to Universität Berlin and work there with Hans Geiger; internment during World War I; scientific work at internment camp; return to Manchester; move with Rutherford to University of Cambridge; appointment as Assistant Director of Research at Cavendish Laboratory (ca. 1923); work with Rutherford on artificial disintegration; Rutherford's idea of the neutron; early experimental search for neutron; duties and experiences at the Cavendish Laboratory from 1919 to 1936; Rutherford's personality; Solvay conference of 1933; reasons for leaving Cambridge for University of Liverpool; initial plans, personnel and activities at Liverpool; cyclotron; award of Nobel Prize; encounter with Joliots, also in Stockholm for Prize in chemistry; influx of refugee theoreticians; work on the meson; changes effected by large machines; recollections of announcement of fission; World War II work; involvement with A-bomb project, Los Alamos Scientific Laboratory and General Leslie Groves; postwar considerations regarding international control of atomic energy; effect of Rutherford's death on Cavendish; return to Cambridge as Master of Gonville and Caius College; circumstances of resignation as Master; appraisal of personal satisfactions. Also prominently mentioned are: H. K. Anderson, John Anderson, Homi Bhabha, Patrick Maynard Stuart Blackett, Niels Henrik David Bohr, Paul Adrien Maurice Dirac, Albert Einstein, Charles D. Ellis, Walter M. Elsasser, Ralph Howard Fowler, Maurice Goldhaber, Otto Hahn, Walter Heitler, J. R. Holt, Ernest Orlando Lawrence, Douglas Lea, Lise Meitner, Stefan Meyer, Henry N. Moseley, Walther Nernst, Giuseppe Occhialini, Mark Oliphant, Maurice H. L. Pryce, Stanley Rolands, Heinrich Rubens, Joseph John Thomson, Merle Antony Tuve, Walke, H. C. Webster, Charles Thomson Rees Wilson; Department of Scientific and Industrial Research of Great Britain, Manchester Literary and Philosophical Society, Ministry of Aircraft Uranium Development Committee (Great Britain), Physikalische-Technische Reichsanstalt, Royal Society (Great Britain), University of Birmingham, University of Cambridge Cavendish Physical Society, and University of Liverpool.
<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. There was also good economic and technical reasons against such a project. It’s a very inefficient reactor, for power generation because of the low temperature at which the Hanford reactor operates. Anyway, the Democrats wanted it and the Republicans didn't.</p>
<p>On the other hand, the Stanford linear accelerator was considered to be a Republican proposal, opposed by the Democrats. So after a while the Republicans and Democrats in the Joint Committee essentially said, "If you approve Hanford, then we approve Stanford." So it ended up with both of them getting approved, and it was this entirely political infighting in the Congress which resulted in that last hurdle being passed. However in 1960, we already had very good confidence that it would go, because the three million dollars was fundamentally a signal to us that Congress really meant it but that they wanted to slap Mr. Eisenhower’s wrist for non-consultation.</p>