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Displaying 1 - 9 of total **9** results:

Interview covers the development of several branches of theoretical physics from the 1930s through the 1960s; the most extensive discussions deal with topics in quantum electrodynamics, nuclear physics as it relates to fission technology, meson field theory, superfluidity and other properties of liquid helium, beta decay and the Universal Fermi Interaction, with particular emphasis on Feynman's work in the reformulation of quantum electrodynamic field equations.

Interview covers the development of several branches of theoretical physics from the 1930s through the 1960s; the most extensive discussions deal with topics in quantum electrodynamics, nuclear physics as it relates to fission technology, meson field theory, superfluidity and other properties of liquid helium, beta decay and the Universal Fermi Interaction, with particular emphasis on Feynman's work in the reformulation of quantum electrodynamic field equations.

Interview covers the development of several branches of theoretical physics from the 1930s through the 1960s; the most extensive discussions deal with topics in quantum electrodynamics, nuclear physics as it relates to fission technology, meson field theory, superfluidity and other properties of liquid helium, beta decay and the Universal Fermi Interaction, with particular emphasis on Feynman's work in the reformulation of quantum electrodynamic field equations.

Developments in quantum mechanics, familiarity with the old quantum theory; Edwin C. Kemble is his thesis advisor at Harvard University, 1920-1922. Comparison of Harvard and University of Wisconsin; work and collaboration with graduate students and postdocs at. Wisconsin. Research work in Europe, 1926 and after; high-frequency paramagnetism. Paramagnetic anisotropy.

Developments in quantum mechanics, familiarity with the old quantum theory; Edwin C. Kemble is his thesis advisor at Harvard University, 1920-1922. Comparison of Harvard and University of Wisconsin; work and collaboration with graduate students and postdocs at. Wisconsin. Research work in Europe, 1926 and after; high-frequency paramagnetism. Paramagnetic anisotropy.

Origin of interest in nuclear physics, discussions of compound nucleus, Copenhagen, 1936; work on interaction of evaporation and nuclear temperature, 1936; Breit-Wigner formula; application of evaporation model to nuclear reactions; postwar work in electrodynamics and nuclear reactions; relative merits of compound nucleus and shell models, 1950-51; explanation of independent particle motion by Pauli principle, 1951; estimates of shell model radiative transition probabilities; optical model and relation to compound nucleus models, 1953-55; emigration to U.S., 1937; initial impressions of Ame

Origin of interest in nuclear physics, discussions of compound nucleus, Copenhagen, 1936; work on interaction of evaporation and nuclear temperature, 1936; Breit-Wigner formula; application of evaporation model to nuclear reactions; postwar work in electrodynamics and nuclear reactions; relative merits of compound nucleus and shell models, 1950-51; explanation of independent particle motion by Pauli principle, 1951; estimates of shell model radiative transition probabilities; optical model and relation to compound nucleus models, 1953-55; emigration to U.S., 1937; initial impressions of Ame