Abraham Klein
Born(1927-01-10)January 10, 1927
DiedJanuary 20, 2003(2003-01-20) (aged 76)
CitizenshipAmerican
Alma materBrooklyn College
Harvard University
Scientific career
FieldsNuclear physics
Quantum field theory
InstitutionsHarvard University
University of Pennsylvania
Doctoral advisorJulian Schwinger
Notable studentsBenjamin W. Lee

Abraham Klein (January 10, 1927 January 20, 2003) was an American theoretical physicist.

Klein received his B.A. from Brooklyn College in 1947, and his S.M. (1948) and Ph.D. (1950) degrees from Harvard University under Julian Schwinger. In 1955, he became associate professor at the University of Pennsylvania, achieving full professorship in 1958 and retiring in 1994.

Klein studied models of collective behavior in finite many-body systems, especially in nuclear physics, for example in Boson model and in an extension of the Hartree–Fock method with Robert Kerman (Kerman–Klein method).[1][2][3] In the 1980s he occupied himself with, among other things, the interacting boson model,[4][5][6][7] and in the 1970s with quantum field theory in strong fields (with Johann Rafelski).

In 1964, Klein published an article about spontaneous symmetry breaking with his student Benjamin W. Lee and contributed to the appearance of Higgs mechanism.[8]

He was a Sloan Fellow and Guggenheim Fellow, Honorary Doctor of Goethe University of Frankfurt, and Alexander von Humboldt Senior Scientist. Klein was a Fellow of the American Physical Society.

He was married and had two daughters.

Bibliography

  • Michel Vallières; Da Hsuan Feng (1993). Symposium on contemporary physics- celebrating the 65.birthday of Abraham Klein. World Scientific. ISBN 978-981-02-1503-3.

References

  1. Arthur K. Kerman; Abraham Klein (1963). "Generalized Hartree-Fock Approximation for the Calculation of Collective States of a Finite Many-Particle System". Physical Review. 132 (3): 1326–1342. Bibcode:1963PhRv..132.1326K. doi:10.1103/PhysRev.132.1326.
  2. Abraham Klein; Arthur K. Kerman (1965). "Collective motion in finite many particle states II". Physical Review. 138 (5B): B1323–B1332. Bibcode:1965PhRv..138.1323K. doi:10.1103/PhysRev.138.B1323.
  3. Abraham Klein; Louis Celenza; Arthur K. Kerman (1965). "Collective Motion in Finite Many-Particle Systems. III. Foundations of a Theory of Rotational Spectra of Deformed Nuclei". Physical Review. 140 (2B): B245–B263. Bibcode:1965PhRv..140..245K. doi:10.1103/PhysRev.140.B245.
  4. Abraham Klein; Ching-Teh Li; Michel Vallieres (1982). "Relationship between the Bohr-Mottelson model and the interacting boson model". Physical Review C. 25 (5): 2733–2742. Bibcode:1982PhRvC..25.2733K. doi:10.1103/PhysRevC.25.2733.
  5. Abraham Klein; Michel Vallieres (1981). "Relationship between the Bohr Collective Hamiltonian and the Interacting-Boson Model". Physical Review Letters. 46 (9): 586–590. Bibcode:1981PhRvL..46..586K. doi:10.1103/PhysRevLett.46.586.
  6. Abraham Klein; Ching-Teh Li; Michel Vallieres (1982). "Relationship Between the Interacting Boson Model and the Bohr Collective Hamiltonian". Physica Scripta. 25 (3): 452–458. Bibcode:1982PhyS...25..452K. doi:10.1088/0031-8949/25/3/003. S2CID 250833136.
  7. Abraham Klein; Ching-Teh Li; Thomas D. Cohen; Michel Vallieres (1983). "Relationship Between the Interacting Boson Model and the Bohr Collective Hamiltonian". Progress in Particle and Nuclear Physics. 9: 183–231. Bibcode:1983PrPNP...9..183K. doi:10.1016/0146-6410(83)90018-2.
  8. A. Klein & B.W. Lee (1964). "Does Spontaneous Breakdown of Symmetry Imply Zero-Mass Particles?". Physical Review Letters. 12 (10): 266. Bibcode:1964PhRvL..12..266K. doi:10.1103/PhysRevLett.12.266. S2CID 15349102.
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