E. C. George Sudarshan

Ennackal Chandy George Sudarshan (also known as E. C. G. Sudarshan; 16 September 1931 14 May 2018)[2] was an Indian-American theoretical physicist and a professor at the University of Texas. Sudarshan has been credited with numerous contributions to the field of theoretical physics, including Glauber–Sudarshan P representation, V-A theory, tachyons, quantum Zeno effect, open quantum system and Lindblad equation, spin–statistics theorem, non-invariance groups, positive maps of density matrices, and quantum computation. His other contributions include east–west relations, and the philosophy an religion.

George Sudarshan
E. C. G. Sudarshan at TIFR Mumbai in 2009
Born(1931-09-16)16 September 1931
Pallam, Kerala
Died13 May 2018(2018-05-13) (aged 86)[1]
Austin,Texas
NationalityIndian
CitizenshipAmerican
Alma materCMS College Kottayam
Madras Christian College
University of Madras
University of Rochester
Known forCoherent states
Optical equivalence theorem
Glauber–Sudarshan representation
GKSL equation
V-A theory
Tachyon
Quantum Zeno effect
Open quantum system
Spin–statistics theorem
Awards
Scientific career
FieldsTheoretical physics
InstitutionsUniversity of Texas at Austin
Indian Institute of Science
Institute of Mathematical Sciences, Chennai
Harvard University
University of Rochester
Tata Institute of Fundamental Research
Doctoral advisorRobert Marshak
Doctoral studentsMohammad Aslam Khan Khalil
Narasimhaiengar Mukunda

Padma Vibhushan Padma Bhushan

Early life

Ennackal Chandy George Sudarshan was born in Pallom, Kottayam, Kerala. He was raised in a Syrian Christian family, but later left the religion. He married Lalita and they have three sons, Alexander, Arvind (deceased) and Ashok.[3] He considered himself a "Vedantin Hindu".[4] He mentions disagreements with the Church's view on God and lack of spiritual experience as reasons why he left Christianity.[5][6]

He studied at CMS College Kottayam,[7] and graduated with honors from the Madras Christian College in 1951. He obtained his master's degree at the University of Madras in 1952. He moved to Tata Institute of Fundamental Research (TIFR) and worked there for a brief period with Homi Bhabha as well as others. Subsequently, he moved to University of Rochester in New York to work under Robert Marshak as a graduate student. In 1958, he received his Ph.D. degree from the University of Rochester. At this point he moved to Harvard University to join Julian Schwinger as a postdoctoral fellow.

Career

Sudarshan made significant contributions to several areas of physics. He was the originator (with Robert Marshak) of the V-A theory of the weak force (later propagated by Richard Feynman and Murray Gell-Mann), which eventually paved the way for the electroweak theory. Feynman acknowledged Sudarshan's contribution in 1963 stating that the V-A theory was discovered by Sudarshan and Marshak and publicized by Gell-Mann and himself.[8] He also developed a quantum representation of coherent light later known as Glauber–Sudarshan representation (for which controversially Glauber was awarded the 2005 Nobel prize in Physics ignoring Sudarshan's contributions).

Sudarshan's most significant work may have been his contribution to the field of quantum optics. His theorem proves the equivalence of classical wave optics to quantum optics. The theorem makes use of the Sudarshan representation. This representation also predicts optical effects that are purely quantum, and cannot be explained classically. Sudarshan was also the first to propose the existence of tachyons, particles that travel faster than light.[9] He developed a fundamental formalism called dynamical maps to study the theory of open quantum system. He, in collaboration with Baidyanath Misra, also proposed the quantum Zeno effect.[10]

Sudarshan and collaborators initiated the "Quantum theory of charged-particle beam optics", by working out the focusing action of a magnetic quadrupole using the Dirac equation.[11][12]

He taught at the Tata Institute of Fundamental Research (TIFR), University of Rochester, Syracuse University, and Harvard. From 1969 onwards, he was a professor of Physics at The University of Texas at Austin and a senior professor at the Indian Institute of Science. He worked as the director of the Institute of Mathematical Sciences (IMSc), Chennai, India, for five years during the 1980s dividing his time between India and USA. During his tenure, he transformed it into a centre of excellence. He also met and held many discussions with philosopher J. Krishnamurti. He was felicitated on his 80th birthday, at IMSc Chennai[13] on 16 September 2011. His areas of interest included elementary particle physics, quantum optics, quantum information, quantum field theory, gauge field theories, classical mechanics and foundations of physics. He was also deeply interested in Vedanta, on which he lectured frequently.

Controversy regarding Nobel Prize

Sudarshan began working on quantum optics at the University of Rochester in 1960. Two years later, Glauber criticized the use of classical electromagnetic theory in explaining optical fields, which surprised Sudarshan because he believed the theory provided accurate explanations. Sudarshan subsequently wrote a paper expressing his ideas and sent a preprint to Glauber. Glauber informed Sudarshan of similar results and asked to be acknowledged in the latter's paper, while criticizing Sudarshan in his own paper.[14] "Glauber criticized Sudarshan’s representation, but his own was unable to generate any of the typical quantum optics phenomena, hence he introduces what he calls a P-representation, which was Sudarshan’s representation by another name", wrote a physicist. "This representation, which had at first been scorned by Glauber, later becomes known as the Glauber–Sudarshan representation."[15]

Sudarshan was passed over for the Physics Nobel Prize on more than one occasion, leading to controversy in 2005 when several physicists wrote to the Swedish Academy, protesting that Sudarshan should have been awarded a share of the Prize for the Sudarshan diagonal representation (also known as Glauber–Sudarshan representation) in quantum optics, for which Roy J. Glauber won his share of the prize.[16] Sudarshan and other physicists sent a letter to the Nobel Committee claiming that the P representation had more contributions of "Sudarshan" than "Glauber". The letter goes on to say that Glauber criticized Sudarshan's theory—before renaming it the "P representation" and incorporating it into his own work. In an unpublished letter to The New York Times, Sudarshan calls the "Glauber–Sudarshan representation" a misnomer, adding that "literally all subsequent theoretic developments in the field of Quantum Optics make use of" Sudarshan's work— essentially, asserting that he had developed the breakthrough.[17][18]

In 2007, Sudarshan told the Hindustan Times, "The 2005 Nobel prize for Physics was awarded for my work, but I wasn't the one to get it. Each one of the discoveries that this Nobel was given for work based on my research."[19] Sudarshan also commented on not being selected for the 1979 Nobel, "Steven Weinberg, Sheldon Glashow and Abdus Salam built on work I had done as a 26-year-old student. If you give a prize for a building, shouldn’t the fellow who built the first floor be given the prize before those who built the second floor?"[19]

Awards

Books
  • 1961: (with Robert Marshak) Introduction to Elementary Particle Physics, Interscience Publishers, Google Books snippet view
  • 1968: (with John R. Klauder) Fundamentals of Quantum Optics, Dover Books ISBN 0486450082 Google Books preview of 2006 edition
  • 1974: (with N. Mukunda) Classical Dynamics: a modern perspective, World Scientific ISBN 9814730017 Google Books preview of 2015 edition
  • 1998: (with Ian Duck) Pauli and the Spin–Statistics Theorem, World Scientific, ISBN 9814497452 Google Books preview
  • 1999: (with Tony Rothman) Doubt and Certainty: The celebrated academy debates on science, mysticism, and reality, Basic Books ISBN 0738201693
  • 2004: (with Giampiero Esposito and Giuseppe Marmo) From Classical to Quantum Mechanics: An Introduction to the Formalism, Foundations and Applications, Cambridge University Press ISBN 1139450549 Google Books preview
  • 2014: (with Giampiero Esposito, Giuseppe Marmo, and Gennaro Miele) Advanced Concepts in Quantum Mechanics, Cambridge University Press ISBN 9781107076044

See also

Notes
  1. "Ennackal Chandy George Sudarshan September 16, 1931 - May 13, 2018". Beck Funeral Home. 15 May 2018. Retrieved 17 May 2018.
  2. "Acclaimed scientist ECG Sudarshan passes away in Texas". Mathrubhumi. 14 May 2018. Retrieved 21 December 2018.
  3. W. Mark Richardson, ed. (2002). "George Sudarshan". Science and the Spiritual Quest: New Essays by Leading Scientists. Routledge. p. 243. ISBN 9780415257664. I was born in an Orthodox Christian family. I was very deeply immersed in it, and so by the age of seven I had read the entire Bible from Genesis to Revelation two or three times. I was not quite satisfied with Christianity, and gradually I got more and more involved with traditional Indian ideas.
  4. W. Mark Richardson, ed. (2002). "George Sudarshan". Science and the Spiritual Quest: New Essays by Leading Scientists. Routledge. p. 243. ISBN 9780415257664. I would now say I am a Vedantin, with these two religious and cultural streams mixed together.
  5. W. Mark Richardson, ed. (2002). "George Sudarshan". Science and the Spiritual Quest: New Essays by Leading Scientists. Routledge. p. 243. ISBN 9780415257664. PC: "Did your training as a scientist contribute at all to your growing dissatisfaction with the church?" GS: "No. It was simply that I found that the people who professed to practice were really not practicing. In other words, there was a great deal of show and not that much genuine spiritual experience. Further, a God “out there” did not fully satisfy me."
  6. W. Mark Richardson, ed. (2002). "George Sudarshan". Science and the Spiritual Quest: New Essays by Leading Scientists. Routledge. p. 250. ISBN 9780415257664. God is not an isolated event, something separate from the universe. God is the universe.
  7. "A proud moment for CMS College: Prof. Sudarshan delights all at his alma mater". The Hindu. 5 July 2008. Retrieved 5 April 2010.
  8. The beat of a different drum: The life and science of Richard Feynman by J. Mehra Clarendon Press Oxford (1994), p. 477, and references 29 and 40 therein
  9. Time Machines: Time Travel in Physics, Metaphysics, and Science Fiction, p. 346, by Paul J. Nahin
  10. Sudarshan, E. C. G.; Misra, B. (1977). "The Zeno's paradox in quantum theory" (PDF). Journal of Mathematical Physics. 18 (4): 756–763. Bibcode:1977JMP....18..756M. doi:10.1063/1.523304.
  11. R. Jagannathan, R. Simon, E. C. G. Sudarshan and N. Mukunda, Quantum theory of magnetic electron lenses based on the Dirac equation, Physics Letters A, 134, 457–464 (1989).
  12. R. Jagannathan and S. A. Khan, Quantum theory of the optics of charged particles, Advances in Imaging and Electron Physics, Editors: Peter W. Hawkes, B. Kazan and T. Mulvey, (Academic Press, Logo, San Diego, 1996), Vol. 97, 257–358 (1996).
  13. "Sudarshan Fest" (PDF). 16 September 2011.
  14. "Physicist Sudarshan's omission questioned". The Hindu. 2 December 2005.
  15. "ECG Sudarshan, physicist who proposed faster than light theory, dies at 86". www.hindustantimes.com. 14 May 2018. Retrieved 20 December 2018.
  16. Zhou, Lulu (6 December 2005). "Scientists Question Nobel". The Harvard Crimson. Retrieved 22 February 2008.
  17. "UT Austin Mourns Passing of George Sudarshan, Titan of 20th Century Physics". cns.utexas.edu. 20 December 2018. Retrieved 20 December 2018.
  18. "First Runner-up". seedmagazine.com. 20 December 2018. Archived from the original on 4 March 2016. Retrieved 20 December 2018.
  19. Mehta, Neha (4 April 2007). "Physicist cries foul over Nobel miss". Hindustan Times. Archived from the original on 20 March 2008. Retrieved 22 February 2008.
  20. "KU to confer honorary doctorates on Narlikar, Kris Gopalakrishnan". The Hindu. 21 August 2019. Retrieved 5 November 2020.
  21. "Padma Awards" (PDF). Ministry of Home Affairs, Government of India. 2015. Archived from the original (PDF) on 15 October 2015. Retrieved 21 July 2015.

References
  • Phys. Rev. Lett. 10, 277-279 (1963)
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