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John H. Van Vleck

 

John H. Van Vleck

John Hasbrouck Van Vleck
John Hasbrouck Van Vleck, 1974
Born March 13, 1899
Middletown, Connecticut
Died October 27, 1980(1980-10-27) (aged 81)
Cambridge, Massachusetts
Nationality United States
Fields Physics
Institutions University of Minnesota
University of Wisconsin–Madison
Harvard University
University of Oxford
Balliol College
Alma mater University of Wisconsin-Madison
Harvard University
Doctoral advisor Edwin C. Kemble
Doctoral students Robert Serber
Edward Mills Purcell
Philip Anderson
Thomas Kuhn
John Atanasoff
Notable awards Elliott Cresson Medal (1971)
Nobel Prize in Physics (1977)

Fellow of the Royal Society[1]

John Hasbrouck Van Vleck (March 13, 1899 – October 27, 1980) was an American physicist and mathematician, co-awarded the 1977 Nobel Prize in Physics, for his contributions to the understanding of the behavior of electrons in magnetic solids.

Life and work

Born in Middletown, Connecticut, the son of mathematician Edward Burr Van Vleck and grandson of astronomer John Monroe Van Vleck, he grew up in Madison, Wisconsin, received A.B. degree from the University of Wisconsin–Madison in 1920. Then he went to Harvard for graduate studies and earned a Ph.D degree in 1922. He joined the University of Minnesota as an assistant professor in 1923, then moved to the University of Wisconsin–Madison before settling at Harvard. He also earned Honorary D. Sc., or D. Honoris Causa, degree from Wesleyan University in 1936. [2]

J. H. van Vleck established the fundamentals of the quantum mechanical theory of magnetism and the crystal field theory (chemical bonding in metal complexes). He is regarded as the Father of Modern Magnetism.[3][4][5]

During World War II, J. H. van Vleck worked on radar at the MIT Radiation Lab. He was half time at the Radiation Lab and half time on the staff at Harvard. He showed that at about 1.25-centimeter wavelength water molecules in the atmosphere would lead to troublesome absorption and that at 0.5-centimeter wavelength there would be a similar absorption by oxygen molecules.[6][7][8][9] This was to have important consequences not just for military (and civil) radar systems but later for the new science of radioastronomy.


J. H. van Vleck participated in the Manhattan Project. In June 1942, J. Robert Oppenheimer held a summer study for confirming the concept and feasibility of nuclear weapon at the University of California, Berkeley. Eight theoretical scientists, including J. H. van Vleck, attended it. From July to September, the theoretical study group examined and developed the principles of atomic bomb design.[10][11][12]

J. H. van Vleck's theoretical work led to establish the Los Alamos Nuclear Weapons Laboratory. He also served on the Los Alamos Review committee in 1943. The committee, established by General Leslie Groves, also consisted of W.K. Lewis of MIT, Chairman; E.L. Rose, of Jones & Lamson; E.B. Wilson of Harvard; and Richard C. Tolman, Vice Chairman of NDRC. The committee's important contribution (originating with Rose) was a reduction in the size of the firing gun for the Little Boy atomic bomb, a concept which eliminated additional design-weight and sped up production of the bomb for its eventual release over Hiroshima. However it was not employed for the Fat Man bomb at Nagasaki, which relied on implosion of a plutonium shell to reach critical mass.[13][14]

In 1961/62 he was George Eastman Visiting Professor at University of Oxford[15] and Professorship of Balliol College.[16]

He was awarded the National Medal of Science in 1966[17] and the Lorentz Medal in 1974.[18] For his contributions to the understanding of the behavior of electrons in magnetic solids, van Vleck was awarded the Nobel Prize in Physics 1977, along with Philip W. Anderson and Sir Nevill Mott.[19] Van Vleck transformations and Van Vleck paramagnetism[20] are also named after him.

Van Vleck died in Cambridge, Massachusetts, aged 81.[21]

Writing

  • , Physical Review, vol. 24, Issue 4, pp. 330–346 (1924)
  • , Physical Review, vol. 24, Issue 4, pp. 347–365 (1924)
  • Quantum Principles and Line Spectra, (Bulletin of the National Research Council; v. 10, pt 4, no. 54, 1926)
  • The Theory of Electric and Magnetic Susceptibilities (Oxford at Clarendon, 1932).
  • , Nobel Lecture, December 8, 1977
  • The Correspondence Principle in the Statistical Interpretation of Quantum Mechanics Proceedings of the National Academy of Sciences of USA, vol. 14, pp. 178–188 (1928)

Japanese art collector

J. H. van Vleck and his wife Abigail were also important art collectors, particularly in the medium of Japanese woodblock prints (principally Ukiyo-e), known as Van Vleck Collection. It was inherited from his father Edward Burr Van Vleck. They donated it to the Chazen Museum of Art in Madison, Wisconsin in 1980s. [22]

References

External links

  • The Theory Of Electric And Magnetic Susceptibilities
  • John Hasbrouck van Vleck
  • NNDB
  • Duncan, Anthony and Janssen, Michel. "On the verge of Undeutung in Minnesota: Van Vleck and the correspondence principle. Part one," Archive for History of Exact Sciences 2007, 61:6, pages 553–624. [1]
  • Chazen Museum of Art
  • Oral history interview transcript with John Hasbrouck Van Vleck 14 October 1963, American Institute of Physics, Niels Bohr Library & Archives
  • Oral history interview transcript with John Hasbrouck Van Vleck 28 February 1966, American Institute of Physics, Niels Bohr Library & Archives
  • Oral history interview transcript with John Hasbrouck Van Vleck 28 January 1977, American Institute of Physics, Niels Bohr Library & Archives
Academic offices
Preceded by
Percy Williams Bridgman
Hollis Chair of Mathematics and Natural Philosophy
1951–1969
Succeeded by
Andrew Gleason

Template:Hollisian Professors of Mathematics

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