Gary Gibbons
Gary Gibbons | |
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Gary Gibbons at Harvard University | |
Born |
Gary William Gibbons 1 July 1946[1] |
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Thesis | Some aspects of gravitational radiation and gravitational collapse (1973) |
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Gary William Gibbons FRS[4] (born 1 July 1946)[1] is a British theoretical physicist.[5][6]
Education
Gibbons was born in Coulsdon, Surrey. He was educated at Purley County Grammar School[1] and the University of Cambridge, where in 1969 he became a research student under the supervision of Dennis Sciama. When Sciama moved to the University of Oxford, he became a student of Stephen Hawking, obtaining his PhD from Cambridge in 1973.[3]
Career
Apart from a stay at the Max Planck Institute in Munich in the 1970s he has remained in Cambridge throughout his career, becoming a full professor in 1997, a Fellow of the Royal Society in 1999,[4] and a Fellow of Trinity College, Cambridge in 2002.
Having worked on classical general relativity for his PhD thesis, Gibbons focused on the quantum theory of black holes afterwards. Together with Malcolm Perry, he used thermal Green's functions to prove the universality of thermodynamic properties of horizons, including cosmological event horizons.[7] He developed the Euclidean approach to quantum gravity with Stephen Hawking, which allows a derivation of the thermodynamics of black holes from a functional integral approach.[8] As the Euclidean action for gravity is not positive definite, the integral only converges when a particular contour is used for conformal factors.[9]
His work in more recent years includes contributions to research on supergravity, p-branes[10] and M-theory, mainly motivated by string theory. Gibbons remains interested in geometrical problems of all sorts which have applications to physics.
Awards
Gibbons was elected a Fellow of the Royal Society in 1999. His nomination reads
“ | Distinguished for his contributions to General Relativity and the Quantum Theory of Gravity. He played a leading role in the development of the Euclidean approach to quantum gravity and showed how it could be used to understand the thermal character of black holes and inflating universes. This revealed a deep and unexpected relationship between gravitation and thermodynamics. As part of the Euclidean quantum gravity programme, he discovered many of the known gravitational instantons and classified their properties. In the more conventional Lorentzian approach to gravity, he has studied the behaviour of solitons in gauge theories and General Relativity and has shown how supersymmetry leads to Bogomolny inequalities on the masses and charges. More recently he has been investigating the role of topology in gravity and has obtained important restrictions on how the topology of spacetime can change. He is recognized world wide as a leader in the field.[4] | ” |
References
- 1 2 3 "GIBBONS, Prof. Gary William". Who's Who 2014, A & C Black, an imprint of Bloomsbury Publishing plc, 2014; online edn, Oxford University Press.(subscription required)
- 1 2 Gary Gibbons at the Mathematics Genealogy Project
- 1 2 3 Gibbons, Gary William (1973). Some aspects of gravitational radiation and gravitational collapse (PhD thesis). University of Cambridge.
- 1 2 3 4 "Library and Archive Catalogue: EC/1999/16 Gibbons, Gary William". London: The Royal Society. Archived from the original on 2014-02-07.
- ↑ Gary Gibbons's publications indexed by the Scopus bibliographic database, a service provided by Elsevier.
- ↑ Euclidean Quantum Gravity, World Scientific (Singapore, 1993); Paperback ISBN 981-02-0516-3
- ↑ Gibbons, G. W., Hawking, S. W. (1977). "Cosmological Event Horizons, Thermodynamics, and Particle Creation". Physical Review D 15 (10): 2738–2751. Bibcode:1977PhRvD..15.2738G. doi:10.1103/PhysRevD.15.2738.
- ↑ Gibbons, G. W., Hawking, S. W. (1977). "Action Integrals and Partition Functions in Quantum Gravity". Physical Review D 15 (10): 2752–2756. Bibcode:1977PhRvD..15.2752G. doi:10.1103/PhysRevD.15.2752.
- ↑ Gibbons, G. W., Hawking, S. W., Perry, M. J. (1978). "Path Integrals and the Indefiniteness of the Gravitational Action". Nucl. Phys. B 138 (1): 141–150. Bibcode:1978NuPhB.138..141G. doi:10.1016/0550-3213(78)90161-X.
- ↑ Gibbons, G. W. (1998). "Born–Infeld particles and Dirichlet p-branes". Nucl. Phys. B 514 (3): 603–639. arXiv:hep-th/9709027. Bibcode:1998NuPhB.514..603G. doi:10.1016/S0550-3213(97)00795-5.
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