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Zohar Komargodski

January 01, 1970

Zohar Komargodski (born 10 March 1983)[1][2] is an Israeli theoretical physicist who works on quantum field theory, including conformal field theories, gauge theories and supersymmetry.[3]

Zohar Komargodski
Born10 March 1983 (1983-03-10) (age 41)
Ukraine, Soviet Union
Alma materTel-Aviv University
Weizmann Institute of Science
Known fora-theorem
AwardsGribov Medal (2013)
New Horizons in Physics Prize (2013)
Sackler Prize (2018)
Scientific career
FieldsTheoretical physics
InstitutionsSimons Center for Geometry and Physics
Stony Brook University
Weizmann Institute of Science
Thesis (2008)
Doctoral advisorOfer Aharony
Micha Berkooz

Komargodski received his Ph.D. from the Weizmann Institute in 2008 and worked as a postdoctoral researcher at the Institute for Advanced Study in Princeton afterwards.[4][5] He currently holds a professor position at the Simons Center for Geometry and Physics[6] at Stony Brook University in New York.

Research edit

In 2011 he and Adam Schwimmer from the Weizmann Institute proved a long-standing conjecture in quantum field theory,[7] the a-theorem, conjectured in 1988 by John Cardy.[8] Cardy's conjecture was a generalization of the c-theorem by Alexander Zamolodchikov (1986)[9] for two-dimensional quantum field theories on higher dimensions. The c-theorem ensures the existence of a function that decreases monotonically with the flow of the renormalization group (RG) (a function of the coupling constants and energy scale), which assumes constant values independent of the energy scale at the fixed points of the RG. This means that cycles in the flow of the RG are excluded; the flow is irreversible. The theorem also makes statements about the number of degrees of freedom in quantum field theory depending on the energy scale. In 1988 Cardy[10] proposed the existence of an analog function (a-function, as an integral of the expected value of the trace of the energy-momentum tensor over the four-dimensional sphere) in four dimensions. The a-function in four dimensions was proven to exist to all orders in perturbation theory in 1989 by Hugh Osborn.[11] Komargodski and Schwimmer proved the existence of the a-function for four dimensions beyond perturbation theory.[12] The application of the a-theorem enables connections to be made between predictions of a quantum field theory at low (observable) energies and high energies in the four-dimensional case relevant for physics.

Additional contributions include:

  • Together with Alexander Zhiboedov, the universal large-spin limit of operators in Conformal Field Theories[13]
  • Contributions to supersymmetric localization, including the geometry of supersymmetric partition functions[14] the Cardy limit,[15] and the metric on the space of theories[16]
  • Anomalies and their consequences for dynamics of strongly coupled systems, including Yang-Mills theory in 3+1 dimensions[17] (with Davide Gaiotto, Anton Kapustin, and Nathan Seiberg).
  • Dualities and new phases of 2+1 dimensional theories.

Honors and awards edit

In 2013 he received the New Horizons in Physics Prize[8] and the Gribov Medal.[18] In 2018 he was awarded the Sackler Prize[19] in Physics. In 2021 he was awarded Tomassoni awards.[20]

References edit

  1. ^ "Prof. Zohar Komargodski".
  2. ^ "New Horizons Solvay Lectures" (PDF).
  3. ^ "Conversation with Zohar Komargodski" (PDF).
  4. ^ "IAS Member". 9 December 2019.
  5. ^ "INSPIRE". inspirehep.net. Retrieved 29 August 2021.
  6. ^ "Zohar Komargodski | SCGP". Retrieved 29 August 2021.
  7. ^ Komargodski, Zohar; Schwimmer, Adam (20 July 2011). "On Renormalization Group Flows in Four Dimensions". Journal of High Energy Physics. 2011 (12): 99. arXiv:1107.3987v2. Bibcode:2011JHEP...12..099K. doi:10.1007/JHEP12(2011)099. S2CID 119231010.
  8. ^ a b "2013 New Horizons in Physics Prize".
  9. ^ Zamolodchikov, A.; Zamolodchikov, Al. (1997), "Conformal Bootstrap in Liouville Field Theory", Low-Dimensional Applications of Quantum Field Theory, NATO ASI Series, vol. 361, Boston, MA: Springer US, pp. 319–334, doi:10.1007/978-1-4899-1919-9_17, ISBN 978-1-4899-1921-2, retrieved 16 March 2021
  10. ^ Cardy, John L. (December 1988). "Is there a c-theorem in four dimensions?". Physics Letters B. 215 (4): 749–752. Bibcode:1988PhLB..215..749C. doi:10.1016/0370-2693(88)90054-8. ISSN 0370-2693.
  11. ^ Osborn, Hugh (1989). "Derivation of a Four-Dimensional c Theorem". Physics Letters B. 222 (1): 97. Bibcode:1989PhLB..222...97O. doi:10.1016/0370-2693(89)90729-6. Ian, Jack; Osborn, Hugh (1990). "Analogs for the c Theorem for Four-Dimensional Renormalizable Field Theories". Nuclear Physics B. 343 (3): 647–688. Bibcode:1990NuPhB.343..647J. doi:10.1016/0550-3213(90)90584-Z.
  12. ^ Samuel Reich, Eugenie (14 November 2011). "Proof found for unifying quantum principle". Nature. doi:10.1038/nature.2011.9352. ISSN 0028-0836. S2CID 211729430.
  13. ^ Komargodski, Zohar; Zhiboedov, Alexander (November 2013). "Convexity and Liberation at Large Spin". Journal of High Energy Physics. 2013 (11): 140. arXiv:1212.4103. Bibcode:2013JHEP...11..140K. doi:10.1007/JHEP11(2013)140. ISSN 1029-8479. S2CID 119305593.
  14. ^ Closset, Cyril; Dumitrescu, Thomas T.; Festuccia, Guido; Komargodski, Zohar (January 2014). "The Geometry of Supersymmetric Partition Functions". Journal of High Energy Physics. 2014 (1): 124. arXiv:1309.5876. Bibcode:2014JHEP...01..124C. doi:10.1007/JHEP01(2014)124. ISSN 1029-8479. S2CID 119224380.
  15. ^ Di Pietro, Lorenzo; Komargodski, Zohar (December 2014). "Cardy Formulae for SUSY Theories in d=4 and d=6". Journal of High Energy Physics. 2014 (12): 31. arXiv:1407.6061. Bibcode:2014JHEP...12..031D. doi:10.1007/JHEP12(2014)031. ISSN 1029-8479. S2CID 52995161.
  16. ^ Gerchkovitz, Efrat; Gomis, Jaume; Komargodski, Zohar (November 2014). "Sphere Partition Functions and the Zamolodchikov Metric". Journal of High Energy Physics. 2014 (11): 1. arXiv:1405.7271. Bibcode:2014JHEP...11..001G. doi:10.1007/JHEP11(2014)001. ISSN 1029-8479. S2CID 53663195.
  17. ^ Gaiotto, Davide; Kapustin, Anton; Komargodski, Zohar; Seiberg, Nathan (May 2017). "Theta, Time Reversal, and Temperature". Journal of High Energy Physics. 2017 (5): 91. arXiv:1703.00501. Bibcode:2017JHEP...05..091G. doi:10.1007/JHEP05(2017)091. ISSN 1029-8479. S2CID 119528151.
  18. ^ "The Gribov Medal Prizes".
  19. ^ "Past Laureates of the Raymond and Beverly Sackler International Prize in Physics". Tel Aviv University. 5 September 2012.
  20. ^ "Caterina Tomassoni and Felice Pietro Chisesi Prize".

January 01, 1970
zohar, komargodski, born, march, 1983, israeli, theoretical, physicist, works, quantum, field, theory, including, conformal, field, theories, gauge, theories, supersymmetry, born10, march, 1983, 1983, ukraine, soviet, unionalma, matertel, aviv, university, wei. Zohar Komargodski born 10 March 1983 1 2 is an Israeli theoretical physicist who works on quantum field theory including conformal field theories gauge theories and supersymmetry 3 Zohar KomargodskiBorn10 March 1983 1983 03 10 age 41 Ukraine Soviet UnionAlma materTel Aviv University Weizmann Institute of ScienceKnown fora theoremAwardsGribov Medal 2013 New Horizons in Physics Prize 2013 Sackler Prize 2018 Scientific careerFieldsTheoretical physicsInstitutionsSimons Center for Geometry and Physics Stony Brook University Weizmann Institute of ScienceThesis 2008 Doctoral advisorOfer Aharony Micha Berkooz Komargodski received his Ph D from the Weizmann Institute in 2008 and worked as a postdoctoral researcher at the Institute for Advanced Study in Princeton afterwards 4 5 He currently holds a professor position at the Simons Center for Geometry and Physics 6 at Stony Brook University in New York Research editIn 2011 he and Adam Schwimmer from the Weizmann Institute proved a long standing conjecture in quantum field theory 7 the a theorem conjectured in 1988 by John Cardy 8 Cardy s conjecture was a generalization of the c theorem by Alexander Zamolodchikov 1986 9 for two dimensional quantum field theories on higher dimensions The c theorem ensures the existence of a function that decreases monotonically with the flow of the renormalization group RG a function of the coupling constants and energy scale which assumes constant values independent of the energy scale at the fixed points of the RG This means that cycles in the flow of the RG are excluded the flow is irreversible The theorem also makes statements about the number of degrees of freedom in quantum field theory depending on the energy scale In 1988 Cardy 10 proposed the existence of an analog function a function as an integral of the expected value of the trace of the energy momentum tensor over the four dimensional sphere in four dimensions The a function in four dimensions was proven to exist to all orders in perturbation theory in 1989 by Hugh Osborn 11 Komargodski and Schwimmer proved the existence of the a function for four dimensions beyond perturbation theory 12 The application of the a theorem enables connections to be made between predictions of a quantum field theory at low observable energies and high energies in the four dimensional case relevant for physics Additional contributions include Together with Alexander Zhiboedov the universal large spin limit of operators in Conformal Field Theories 13 Contributions to supersymmetric localization including the geometry of supersymmetric partition functions 14 the Cardy limit 15 and the metric on the space of theories 16 Anomalies and their consequences for dynamics of strongly coupled systems including Yang Mills theory in 3 1 dimensions 17 with Davide Gaiotto Anton Kapustin and Nathan Seiberg Dualities and new phases of 2 1 dimensional theories Honors and awards editIn 2013 he received the New Horizons in Physics Prize 8 and the Gribov Medal 18 In 2018 he was awarded the Sackler Prize 19 in Physics In 2021 he was awarded Tomassoni awards 20 References edit Prof Zohar Komargodski New Horizons Solvay Lectures PDF Conversation with Zohar Komargodski PDF IAS Member 9 December 2019 INSPIRE inspirehep net Retrieved 29 August 2021 Zohar Komargodski SCGP Retrieved 29 August 2021 Komargodski Zohar Schwimmer Adam 20 July 2011 On Renormalization Group Flows in Four Dimensions Journal of High Energy Physics 2011 12 99 arXiv 1107 3987v2 Bibcode 2011JHEP 12 099K doi 10 1007 JHEP12 2011 099 S2CID 119231010 a b 2013 New Horizons in Physics Prize Zamolodchikov A Zamolodchikov Al 1997 Conformal Bootstrap in Liouville Field Theory Low Dimensional Applications of Quantum Field Theory NATO ASI Series vol 361 Boston MA Springer US pp 319 334 doi 10 1007 978 1 4899 1919 9 17 ISBN 978 1 4899 1921 2 retrieved 16 March 2021 Cardy John L December 1988 Is there a c theorem in four dimensions Physics Letters B 215 4 749 752 Bibcode 1988PhLB 215 749C doi 10 1016 0370 2693 88 90054 8 ISSN 0370 2693 Osborn Hugh 1989 Derivation of a Four Dimensional c Theorem Physics Letters B 222 1 97 Bibcode 1989PhLB 222 97O doi 10 1016 0370 2693 89 90729 6 Ian Jack Osborn Hugh 1990 Analogs for the c Theorem for Four Dimensional Renormalizable Field Theories Nuclear Physics B 343 3 647 688 Bibcode 1990NuPhB 343 647J doi 10 1016 0550 3213 90 90584 Z Samuel Reich Eugenie 14 November 2011 Proof found for unifying quantum principle Nature doi 10 1038 nature 2011 9352 ISSN 0028 0836 S2CID 211729430 Komargodski Zohar Zhiboedov Alexander November 2013 Convexity and Liberation at Large Spin Journal of High Energy Physics 2013 11 140 arXiv 1212 4103 Bibcode 2013JHEP 11 140K doi 10 1007 JHEP11 2013 140 ISSN 1029 8479 S2CID 119305593 Closset Cyril Dumitrescu Thomas T Festuccia Guido Komargodski Zohar January 2014 The Geometry of Supersymmetric Partition Functions Journal of High Energy Physics 2014 1 124 arXiv 1309 5876 Bibcode 2014JHEP 01 124C doi 10 1007 JHEP01 2014 124 ISSN 1029 8479 S2CID 119224380 Di Pietro Lorenzo Komargodski Zohar December 2014 Cardy Formulae for SUSY Theories in d 4 and d 6 Journal of High Energy Physics 2014 12 31 arXiv 1407 6061 Bibcode 2014JHEP 12 031D doi 10 1007 JHEP12 2014 031 ISSN 1029 8479 S2CID 52995161 Gerchkovitz Efrat Gomis Jaume Komargodski Zohar November 2014 Sphere Partition Functions and the Zamolodchikov Metric Journal of High Energy Physics 2014 11 1 arXiv 1405 7271 Bibcode 2014JHEP 11 001G doi 10 1007 JHEP11 2014 001 ISSN 1029 8479 S2CID 53663195 Gaiotto Davide Kapustin Anton Komargodski Zohar Seiberg Nathan May 2017 Theta Time Reversal and Temperature Journal of High Energy Physics 2017 5 91 arXiv 1703 00501 Bibcode 2017JHEP 05 091G doi 10 1007 JHEP05 2017 091 ISSN 1029 8479 S2CID 119528151 The Gribov Medal Prizes Past Laureates of the Raymond and Beverly Sackler International Prize in Physics Tel Aviv University 5 September 2012 Caterina Tomassoni and Felice Pietro Chisesi Prize Retrieved from https en wikipedia org w index php title Zohar Komargodski amp oldid 1177347092, wikipedia, wiki, book, books, library,

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