Ezra T. Newman Explained

Ezra Ted Newman
Birth Date:17 October 1929
Birth Place:Bronx, New York, U.S.
Death Place:Pittsburgh, Pennsylvania, U.S.
Fields:General relativity
Workplaces:University of Pittsburgh
Alma Mater:The Bronx H.S. of Science
New York University
Syracuse University
Doctoral Advisor:Peter Bergmann
Thesis Title:Observables in singular theories by systematic approximation.
Thesis Url:https://catalog.syr.edu/vwebv/holdingsInfo?bibId=2081515
Thesis Year:1956
Known For:Newman–Penrose formalism
Kerr–Newman metric

Ezra Theodore Newman (October 17, 1929 – March 24, 2021)[1] was an American physicist, known for his many contributions to general relativity theory. He was professor emeritus at the University of Pittsburgh. Newman was awarded the 2011 Einstein Prize from the American Physical Society.

Education

Newman was born in the Bronx, New York City to David and Fannie (Slutsky) Newman.[2] He showed an early interest in science, pondering magnets, match flames, and science books.[3]

He was admitted to the Bronx High School of Science, where he excelled at physics. Ted's father hoped that he would follow him into dentistry, but instead Ted enrolled at New York University to further his study of physics, graduating with a B.A. in 1951. For graduate education he went to Syracuse University, obtaining an M.A. in 1955 and a Ph.D. the following year.[4]

Career in physics

Newman joined the University of Pittsburgh faculty in 1956, becoming professor of physics in 1966. He was a visiting professor at Syracuse University in 1960/61 and at Kings College, University of London, in 1964/65. In 1957 he served as consultant at Wright-Patterson Air Force Base.[2]

In 1962, together with Roger Penrose, he introduced the powerful Newman–Penrose formalism for working with spinorial quantities in general relativity. The following year he and coworkers extended Abraham H. Taub's solution to the Einstein field equation obtaining the Taub–NUT space.[5] He also generalized the Kerr metric developed by Roy Kerr to include a charged body, resulting in the Kerr–Newman metric.

In 1973 he advocated the use of complex numbers in relativity, and consideration of complex spacetime.[6]

Some of his most interesting recent work has involved the problem of reconstructing the gravitational field within some region from observations of how optical images are lensed as light rays pass through the region.

In 2002 an email he forwarded to John C. Baez helped to touch off the Bogdanov Affair.

Newman was selected as a Fellow of the American Physical Society in 1972.[7] In 2011, he was awarded the Einstein Prize (APS) "for outstanding contributions to theoretical relativity, including the Newman–Penrose formalism, Kerr–Newman solution, Heaven, and null foliation theory, for his intellectual passion, generosity and honesty, which have inspired and represented a model for generations of relativists".[4] [8] [9]

Family

Newman married Sally Faskow on April 20, 1958,[2] with whom he had two children, David E. Newman, a professor of physics at the University of Alaska Fairbanks, and Dara Newman.

Selected publications

External links

Notes and References

  1. News: Remembering the life of Ezra Ted Newman (1929–2021) . Pittsburgh Post-Gazette.
  2. [Allen G. Debus]
  3. News: Basken . Paul . A Humble Heavyweight in Physics Finally Gets His Due . February 13, 2011 . . February 16, 2022.
  4. Ezra (Ted) Newman . Physics Matters . September 2011 . . 1 . 6 . 16 February 2022.
  5. Newman, E. T. . Tamburino, L. A. . Unti, T. . amp . Empty-space generalization of the Schwarzschild metric . J. Math. Phys. . 1963 . 4 . 915 . 10.1063/1.1704018. 1963JMP.....4..915N . 7 .
  6. Newman. E. T.. Maxwell's equations and complex Minkowski space. Journal of Mathematical Physics. 1973. 14. 1. The American Institute of Physics. 10.1063/1.1666160. 1973JMP....14..102N. 102–103.
  7. Web site: APS Fellow Archive . American Physical Society . 2018-03-28.
  8. Web site: 2011 Einstein Prize Recipient . November 21, 2010 .
  9. GRG Editor's Choice: Classical mechanics via GR and Maxwell's theory: a bit of magic . . 19 August 2018 . 50 . 16 February 2022 . . en.