Tullio Regge

Tullio Regge
Born (1931-07-11)11 July 1931
Borgo d'Ale, Italy
Died 23 October 2014(2014-10-23) (aged 83)
Orbassano, Italy
Fields Theoretical physics
Institutions Max Planck Institute for Physics
University of Turin
Institute for Advanced Study
Polytechnic University of Turin
Alma mater University of Turin
Doctoral advisor Robert Marshak
Doctoral students Bei-Lok Hu
Known for Regge theory
Regge calculus
Notable awards Dannie Heineman Prize for Mathematical Physics (1964)
Albert Einstein Award (1979)
Pomeranchuk Prize (2001)

Tullio Eugenio Regge (Italian: [ˈtulljo ˈrɛddʒe]; July 11, 1931 – October 23, 2014) was an Italian theoretical physicist.[1]

Biography

Regge obtained the laurea in physics from the University of Turin in 1952 under the direction of Mario Verde and Gleb Wataghin, and a Ph.D. in physics from the University of Rochester in 1957 under the direction of Robert Marshak. From 1958 to 1959 Regge held a post at the Max Planck Institute for Physics where he worked with Werner Heisenberg. In 1961 he was appointed to the chair of Relativity at the University of Turin. He also held an appointment at the Institute for Advanced Study from 1965 to 1979. He was emeritus professor at the Polytechnic University of Turin while contributing work at CERN as a visiting scientist. Regge died on October 23, 2014.[2] He was married to Rosanna Cester, physicist, by whom he had three children: Daniele, Marta and Anna.

In 1959, Regge discovered a mathematical property of potential scattering in the Schrödinger equation—that the scattering amplitude can be thought of as an analytic function of the angular momentum, and that the position of the poles determines power-law growth rates of the amplitude in the purely mathematical region of large values of the cosine of the scattering angle (i.e. , requiring complex angles).[3][4][5][6][7][8] This formulation is known as Regge theory. Regge trajectory, a part of Regge's theory which tries to explain slowly rising cross section of hadronic collisions at high energies, was first demonstrated at CERN for Intersecting Storage Rings (ISR).[9]

In the early 1960s, Regge introduced Regge calculus, a simplicial formulation of general relativity. Regge calculus was the first discrete gauge theory suitable for numerical simulation, and an early relative of lattice gauge theory. In 1968 he and G. Ponzano developed a quantum version of Regge calculus in three space-time dimensions now known as the Ponzano-Regge model.[10] This was the first of a whole series of state sum models for quantum gravity known as spin foam models. In mathematics, the model also developed into the Turaev-Viro model, an example of a quantum invariant.

Awards and honors

He received the Dannie Heineman Prize for Mathematical Physics in 1964, the Città di Como prize in 1968, the Albert Einstein Award in 1979,[11] and the Cecil Powell Medal in 1987.

In 1989, Regge was elected to the European Parliament as a candidate of the Italian Communist Party and served until 1994. Regge served as president of the Turin section of the Association for Research in Handicap Prevention (AIRH).

He was awarded the Dirac Medal in 1996,[12] the Marcel Grossmann Award in 1997,[13] and the Pomeranchuk Prize in 2001.[14] The asteroid 3778 Regge has been named after him.

Regge theory, a theory of strong interaction phenomenology at high energies, and Regge calculus are named after him.

Selected works

References

  1. Piero Bianucci. "Addio a Tullio Regge, genio della fisica". lastampa.it. p. 18. Retrieved 2014-10-25.
  2. D'Auria, Riccardo (January 2015). "Faces and places: Tullio Regge 1931-2014" (PDF). CERN Courier. 55 (1): 39–40.
  3. Tullio Regge, "Introduction to complex angular momentum," Il Nuovo Cimento Series 10, Vol. 14, 1959, p. 951.
  4. Iliopoulos, John (1996), Krige, John, ed., History of CERN, Volume 3, Elsevier, p. 301, ISBN 978-0-444-89655-1
  5. Cao, Tian Yu (1998), Conceptual developments of 20th century field theories, Cambridge University Press, p. 224, ISBN 978-0-521-63420-5
  6. Collins, P. D. B. (1977). An Introduction to Regge Theory and High-Energy Physics. Cambridge University Press. ISBN 0-521-21245-6.
  7. Eden, R. J. (1971). "Regge poles and elementary particles". Rep. Prog. Phys. 34 (3): 9951053. Bibcode:1971RPPh...34..995E. doi:10.1088/0034-4885/34/3/304.
  8. Irving, A. C.; Worden, R. P. (1977). "Regge phenomenology". Phys. Rep. 34 (3): 117231. Bibcode:1977PhR....34..117I. doi:10.1016/0370-1573(77)90010-2.
  9. Donnachie, Sandy (April 1999). "Probing the pomeron". CERN Courier. 39 (3): 29–31.
  10. G. Ponzano; T. Regge (1968). "Semiclassical limit of Racah coefficients". In Bloch, F. Spectroscopic and group theoretical methods in physics. Amsterdam: North-Holland Publ. Co. pp. 1–58.
  11. "Tullio Regge receives Albert Einstein Award", Physics Today, 32: 82, May 1979, Bibcode:1979PhT....32e..82., doi:10.1063/1.2995565
  12. Dirac Medalists 1996 — ICTP Portal
  13. MARCEL GROSSMANN AWARDS
  14. Pomeranchuk Prize Winners 2001

External links

This article is issued from Wikipedia - version of the 5/24/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.