Gregory Wannier

Graphical example of two Wannier functions calculated for triple- and single-bonded nitrogen dimers in palladium nitride.

Gregory Hugh Wannier (1911–1983) was a Swiss physicist.[1]

Wannier received his physics PhD under Ernst Stueckelberg at the University of Basel in 1935. He worked with Professor Eugene P. Wigner as a post-doc exchange student at Princeton in the academic year 1936/1937 and later taught at several American universities before a stint in industry from 1946 to 1960. After working at Socony-Vacuum Laboratories, he joined Bell Laboratories in 1949. There he was in the Physical Electronics Group with colleagues such as William B. Shockley, Conyers Herring, John Bardeen, Charles Kittel, and Philip W. Anderson.[2]

Wannier developed a complete set of orthogonal functions known as the Wannier functions[3][4] which became tools of the trade for solid-state theorists. He also had made contributions to ferromagnetic theory via the Ising model. The Kramers–Wannier duality yields the exact location of the critical point for the Ising model on the square lattice.[5]

He returned to academia in 1961 at the University of Oregon, where he retired as professor emeritus in 1977. He published a series of important papers on the properties of crystals, working with graduate students and visiting professors. Additionally, he published widely read textbooks on solid-state theory and statistical mechanics.

He was regarded by many in the department as its most eminent member until his death on October 21, 1983. He was a fellow of the American Physical Society.

Books by Wannier

References

  1. Anderson, Philip W. (May 1984). "Obituary: Gregory Wannier". Physics Today. 37 (5): 100–101. Bibcode:1984PhT....37e.100A. doi:10.1063/1.2916218.
  2. Anderson, Oral History
  3. Wannier, G. H. (1937). "The structure of electronic excitation levels in insulating crystals". Physical Review. 52: 191–197. Bibcode:1937PhRv...52..191W. doi:10.1103/PhysRev.52.191.
  4. Wannier, G. H. (1962). "Dynamics of Band Electrons in Electric and Magnetic Fields". Reviews of Modern Physics. 34: 645–655. Bibcode:1962RvMP...34..645W. doi:10.1103/RevModPhys.34.645.
  5. Kramers, H. A.; Wannier, G. H. (1941). "Statistics of the two-dimensional ferromagnet". Physical Review. 60: 252–262. Bibcode:1941PhRv...60..252K. doi:10.1103/PhysRev.60.252.
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