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Seiberg, âExact results on the space of vacua of four-dimensional SUSY gauge theoriesâ, hep-th/9402044, {{DOI:10.1103/PhysRevD.49.6857}}, Phys.Rev.D 49 (1994), 6857-6863; âElectric - magnetic duality in supersymmetric non-Abelian gauge theoriesâ, hep-th/9411149, {{DOI: 10.1016/0550-3213(94)00023-8}},
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Seiberg and Witten, âElectric - magnetic duality, monopole condensation, and confinement in N=2 supersymmetric Yang-Mills theoryâ{{ DOI: 10.1016/0550-3213(94)90124-4 , 10.1016/0550-3213(94)00449-8 (erratum)}}, Nucl.Phys.B 426 (1994), 19-52, Nucl.Phys.B 430 (1994), 485-486 (erratum), hep-th/9407087;
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Morrison and
Seiberg, âExtremal transitions and five-dimensional supersymmetric field theoriesâ, hep-th/9609070, {{DOI: 10.1016/S0550-3213(96)00592-5}}, Nucl.Phys.B 483 (1997), 229-247; Intriligator, Morrison, and Seiberg, âFive-dimensional supersymmetric gauge theories and degenerations of
449:
In a series of papers with various collaborators, Seiberg studied many supersymmetric theories in three, four, five, and six dimensions. The three-dimensional N=2 supersymmetric theories and their dualities were shown to be related to the four-dimensional N=1 theories. And surprising
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and
Seiberg uncovered a surprising mixing between short-distance and long-distance phenomena in these field theories on a noncommutative space. Such mixing violates the standard picture of the renormalization group. They referred to this phenomenon as UV/IR
423:
and
Seiberg studied many more models and summarized the subject in lecture notes. Later, Intriligator, Seiberg and David Shih used this understanding of the dynamics to present four-dimensional models with dynamical supersymmetry breaking in a metastable
431:. They found exact expressions for several quantities of interest. These shed new light on interesting phenomena like confinement, chiral symmetry breaking, and electric-magnetic duality. This insight was used by Witten to derive the
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Minwalla, Van
Raamsdonk, and Seiberg, âNoncommutative perturbative dynamicsâ, JHEP 02 (2000), 020, In *Li, M. (ed.) et al.: Physics in non-commutative world* 426-451, hep-th/9912072, {{DOI: 10.1088/1126-6708/2000/02/020}}
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Intriligator and
Seiberg âLectures on supersymmetric gauge theories and electric-magnetic dualityâ Nucl.Phys.B Proc.Suppl. 45BC (1996), 1-28, Subnucl.Ser. 34 (1997), 237-299, {{ DOI: 10.1016/0920-5632(95)00626-5}},
351:, and Seiberg explored nonperturbative effects in supersymmetric field theories. This work demonstrated, for the first time, that nonperturbative effects in four-dimensional field theories do not respect the
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Seiberg and Witten âString theory and noncommutative geometryâ, JHEP 09 (1999), 032, In *Li, M. (ed.) et al.: Physics in non-commutative world* 327-401, hep-th/9908142, {{DOI:10.1088/1126-6708/1999/09/032}}.
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Aharony, Hanany, Intriligator, and
Seiberg, âAspects of N=2 supersymmetric gauge theories in three-dimensionsâ, hep-th/9703110, Nucl.Phys.B 499 (1997), 67-99, {{DOI: 10.1016/S0550-3213(97)00323-4}}
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Seiberg âNew theories in six-dimensions and matrix description of M theory on T**5 and T**5 / Z(2)â hep-th/9705221,{{DOI: 10.1016/S0370-2693(97)00805-8}} Phys.Lett.B 408 (1997), 98-104
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Seiberg, âFive-dimensional SUSY field theories, nontrivial fixed points and string dynamicsâ, hep-th/9608111 {{DOI: 10.1016/S0370-2693(96)01215-4}}, Phys.Lett.B 388 (1996), 753-760
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Seiberg and Witten, âGauge dynamics and compactification to three-dimensionsâ, hep-th/9607163, in âConference on the
Mathematical Beauty of Physics (In Memory of C. Itzykson)â.
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in four dimension. These theories exhibit unexpected rich phenomena like confinement with and without chiral symmetry breaking and a new kind of electric-magnetic duality â
396:. In the course of doing it, they invented modular tensor categories and described many of their properties. They also explored the relation between Wittenâs Topological
796:âMonopoles, duality and chiral symmetry breaking in N=2 supersymmetric QCDâ, Nucl.Phys.B 431 (1994), 484-550, {{DOI: 10.1016/0550-3213(94)90214-3}}, hep-th/9408099.
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Seiberg âNaturalness versus supersymmetric nonrenormalization theoremsâ, Phys.Lett.B 318 (1993), 469-475 {{doi: 10.1016/0370-2693(93)91541-T}} hep-ph/9309335.
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Intriligator, Seiberg, and Shih, âDynamical SUSY breaking in meta-stable vacuaâ, hep-th/0602239 , JHEP 04 (2006), 021, {{DOI: 10.1088/1126-6708/2006/04/021}}
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Aharony, Razamat, Seiberg, and
Willett, â3d dualities from 4d dualitiesâ, hep-th/1305.3924, {{DOI: 10.1007/JHEP07(2013)149}}, JHEP 07 (2013), 149
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Intriligator and
Seiberg found a new kind of duality in three-dimensional N=4 supersymmetric theories, which is reminiscent of the well-known
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499:, Seiberg, and Brian Willett introduced the notion of higher-form global symmetries and studied some of their properties and applications.
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proposed a supersymmetry breaking mechanism based on gluino condensation, Dine, Seiberg, and Witten showed that terms similar to
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Moore and
Seiberg âClassical and Quantum Conformal Field Theoryâ, Commun.Math.Phys. 123 (1989), 177 {{doi: 10.1007/BF01238857}}
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and initiated a program to use it to find exact results in complicated field theories including several N=1 supersymmetric
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and the corresponding Rational Conformal Field Theory. This body of work was later used in mathematics and in the study of
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Gaiotto, Davide; Kapustin, Anton; Seiberg, Nathan; Willett, Brian (February 2015). "Generalized Global Symmetries".
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Calabi-Yau spacesâ, hep-th/9702198, {{DOI: 10.1016/S0550-3213(97)00279-4}}, Nucl.Phys.B 497 (1997), 56-100.
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In the 90âs, Seiberg realized the significance of holomorphy as the underlying reason for the perturbative
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Seiberg and Witten identified a particular low-energy limit (SeibergâWitten limit) of theories containing
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Intriligator, Kenneth; N. Seiberg (October 1996). "Mirror symmetry in three-dimensional gauge theories".
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New annual US$ 3 million Fundamental Physics Prize recognizes transformative advances in the field
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Moore and Seiberg âLectures on RCFTâ in Trieste 1989, Proceedings, Superstrings '89* 1-129
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Seiberg and Witten studied the dynamics of four-dimensional N=2 supersymmetric theories â
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Dynamical supersymmetry breaking in four dimensions and its phenomenological implications
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five-dimensional theories with N=2 supersymmetries were discovered and analyzed.
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and Seiberg explored various aspects of string theory. In particular, Dine,
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560:"Array of Contemporary American Physicists: Nathan Seiberg"
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in 1998. In July 2012, he was an inaugural awardee of the
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Members of the United States National Academy of Sciences
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https://www.physics.rutgers.edu/~gmoore/LecturesRCFT.pdf
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Dynamical supersymmetry breaking in supersymmetric QCD
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708:Nonperturbative effects on the string world sheet
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669:, Physics Letters B, vol. 156, 1985, pp. 55â60
382:, and Witten studied instantons on the string
310:Dannie Heineman Prize for Mathematical Physics
1026:
718:; Nucl. Phys. B, vol. 289, 1987, pp. 319â363
710:, Nucl. Phys. B, vol. 278, 1986, pp. 769â789
690:, Nucl. Phys. B, vol. 289, 1987, pp. 589â598
636:, Nucl. Phys. B, vol. 241, 1984, pp. 493â534
378:arise in string theory, and Dine, Seiberg,
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997:Nathan Seiberg's web page at the Institute
632:Ian Affleck, Michael Dine, Nathan Seiberg
47:
1418:The Event Horizon Telescope Collaboration
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667:Gluino condensation in superstring models
648:, Nucl. Phys. B, vol. 256, 1985, p. 557,
409:supersymmetry nonrenormalization theorems
353:supersymmetry nonrenormalization theorems
314:Breakthrough Prize in Fundamental Physics
296:in Princeton, New Jersey, United States.
159:Breakthrough Prize in Fundamental Physics
1864:Fellows of the American Physical Society
688:Fayet-Iliopoulos Terms in String Theory
14:
1826:
525:Two-dimensional conformal field theory
468:in which the dynamics becomes that of
27:Israeli American theoretical physicist
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326:American Academy of Arts and Sciences
292:. He is currently a professor at the
1839:Institute for Advanced Study faculty
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53:Nathan Seiberg at Harvard University
535:Noncommutative quantum field theory
470:noncommutative quantum field theory
24:
25:
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394:Rational Conformal Field Theories
277:; born September 22, 1956) is an
1854:21st-century American physicists
767:Nucl.Phys.B 435 (1995), 129-146.
590:"Heineman Prize: Nathan Seiberg"
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476:. They also presented a map (
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1006:Mathematics Genealogy Project
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564:American Institute of Physics
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196:Weizmann Institute of Science
105:Weizmann Institute of Science
1326:Sudbury Neutrino Observatory
847:10.1016/0370-2693(96)01088-X
724:10.1016/0550-3213(87)90383-X
716:10.1016/0550-3213(86)90418-9
696:10.1016/0550-3213(87)90395-6
675:10.1016/0370-2693(85)91354-1
665:Dine, Rohm, Seiberg, Witten
642:10.1016/0550-3213(84)90058-0
402:topological phases of matter
330:National Academy of Sciences
294:Institute for Advanced Study
204:Institute for Advanced Study
7:
1250:Supernova Cosmology Project
706:Dine, Seiberg, Wen, Witten
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453:As part of his work on the
340:His contributions include:
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304:He was recipient of a 1996
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433:SeibergâWitten invariants
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1874:Scientists from Tel Aviv
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376:FayetâIliopoulos D-terms
30:Not to be confused with
1744:Shankar Balasubramanian
1480:Alexander Zamolodchikov
1412:Peter van Nieuwenhuizen
964:10.1007/JHEP02(2015)172
362:In a series of papers,
328:and a Member of the US
322:Dirac Medal of the ICTP
1758:Clifford P. Brangwynne
1591:Emmanuelle Charpentier
686:Dine, Seiberg, Witten
472:â a field theory on a
459:little string theories
357:supersymmetry breaking
1262:High-Z Supernova Team
457:, Seiberg discovered
429:SeibergâWitten theory
282:theoretical physicist
119:SeibergâWitten theory
1701:Virginia Man-Yee Lee
1565:Alexander Varshavsky
1384:Jocelyn Bell Burnell
1282:and contributors to
421:Kenneth Intriligator
392:and Seiberg studied
306:MacArthur Fellowship
286:quantum field theory
1685:Jeffrey M. Friedman
1575:Charles David Allis
1260:and members of the
1248:and members of the
956:2015JHEP...02..172G
839:1996PhLB..387..513I
654:1985NuPhB.256..557A
398:ChernâSimons theory
186:Theoretical physics
101:Tel-Aviv University
1778:Masashi Yanagisawa
1689:Franz-Ulrich Hartl
1619:Stephen J. Elledge
1571:Alim Louis Benabid
1458:Charles H. Bennett
1408:Daniel Z. Freedman
1358:Charles L. Bennett
1322:Arthur B. McDonald
1310:KĹichirĹ Nishikawa
1240:John Henry Schwarz
1230:Alexander Polyakov
1208:Michel Della Negra
1127:Daniel A. Spielman
1042:Breakthrough Prize
619:2012-08-03 at the
486:Mark Van Raamsdonk
478:SeibergâWitten map
444:3D mirror symmetry
440:2D mirror symmetry
200:Rutgers University
135:SeibergâWitten map
131:3D mirror symmetry
69:September 22, 1956
1859:MacArthur Fellows
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1800:Fredrick Van Goor
1693:Arthur L. Horwich
1667:Adrian R. Krainer
1561:Richard P. Lifton
1519:Napoleone Ferrara
1499:Cornelia Bargmann
1348:Andrew Strominger
1344:Joseph Polchinski
1154:Nima Arkani-Hamed
1103:Vincent Lafforgue
1093:Christopher Hacon
817:Physics Letters B
540:Anomaly (physics)
455:BFSS matrix model
300:Honors and awards
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222:Doctoral students
176:Scientific career
16:(Redirected from
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1762:Anthony A. Hyman
1732:Jeffery W. Kelly
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1719:Richard J. Youle
1663:C. Frank Bennett
1657:Don W. Cleveland
1631:Yoshinori Ohsumi
1557:Robert S. Langer
1545:James P. Allison
1507:Lewis C. Cantley
1448:Hidetoshi Katori
1428:Jens H. Gundlach
1338:Super-Kamiokande
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1531:Robert Weinberg
1527:Charles Sawyers
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1470:Peter W. Shor
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1466:David Deutsch
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1216:Guido Tonelli
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570:on 2012-10-07
569:
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390:Gregory Moore
388:
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372:Edward Witten
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290:string theory
287:
284:who works on
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89:
85:
81:
77:
71:(age 67)
61:
57:
50:
45:
38:
33:
19:
1752:Pascal Mayer
1697:David Julius
1679:Zhijian Chen
1645:Peter Walter
1641:Joanne Chory
1613:Svante Pääbo
1511:Hans Clevers
1437:
1399:
1390:Charles Kane
1379:
1362:Gary Hinshaw
1280:Rainer Weiss
1267:
1226:(LHC) (2013)
1191:
1177:
1170:Andrei Linde
937:
933:
927:
918:
909:
900:
890:
881:
872:
863:
820:
816:
810:
801:
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772:
762:
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740:
731:
707:
702:
687:
682:
666:
661:
645:
633:
628:
609:
597:. Retrieved
584:
572:. Retrieved
568:the original
554:
510:Gauge theory
466:open strings
364:Michael Dine
349:Michael Dine
339:
303:
245:
241:
237:
236:
192:Institutions
175:
32:Atle Selberg
1834:1956 births
1770:John Jumper
1722: [
1707:David Baker
1653:Kim Nasmyth
1635:Huda Zoghbi
1609:Helen Hobbs
1583:Gary Ruvkun
1523:Eric Lander
1394:Eugene Mele
1352:Cumrun Vafa
1340:team (2016)
1294:Kam-Biu Luk
1290:Yifang Wang
1200:Peter Jenni
1144:Fundamental
1071:Terence Tao
1067:Jacob Lurie
1051:Mathematics
345:Ian Affleck
318:Yuri Milner
216:Haim Harari
166:Dirac Medal
87:Nationality
1828:Categories
1605:John Hardy
1476:John Cardy
1276:Kip Thorne
1258:Adam Riess
1222:(CMS) and
1182:Ashoke Sen
1109:Alex Eskin
940:(2): 172.
599:2011-07-20
574:2011-07-20
546:References
384:worldsheet
65:1956-09-22
1784:Carl June
1715:Dennis Lo
1224:Lyn Evans
1206:(ATLAS),
1158:Alan Guth
1044:laureates
972:1029-8479
947:1412.5148
530:S-duality
515:Instanton
380:X. G. Wen
368:Ryan Rohm
1336:and the
1324:and the
1312:and the
1304:and the
1296:and the
1081:Ian Agol
980:37178277
855:13985843
617:Archived
504:See also
336:Research
308:and the
76:Tel Aviv
1438:Special
1400:Special
1380:Special
1306:KamLAND
1268:Special
1192:Special
1146:physics
1004:at the
952:Bibcode
835:Bibcode
650:Bibcode
489:mixing.
424:vacuum.
246:Seiberg
18:Seiberg
1814:(2024)
1780:(2023)
1754:(2022)
1728:(2021)
1703:(2020)
1681:(2019)
1659:(2018)
1637:(2017)
1615:(2016)
1593:(2015)
1567:(2014)
1541:(2013)
1482:(2024)
1472:(2023)
1454:(2022)
1452:Jun Ye
1444:(2021)
1434:(2021)
1420:(2020)
1414:(2019)
1396:(2019)
1386:(2018)
1376:(2018)
1354:(2017)
1328:team,
1320:team,
1308:team,
1264:(2015)
1242:(2014)
1232:(2013)
1188:(2012)
1135:(2024)
1129:(2023)
1123:(2022)
1117:(2021)
1111:(2020)
1105:(2019)
1099:(2018)
1089:(2017)
1083:(2016)
1077:(2015)
978:
970:
853:
238:Nathan
182:Fields
169:(2016)
162:(2012)
155:(1998)
148:(1996)
141:Awards
80:Israel
1726:]
976:S2CID
942:arXiv
851:S2CID
825:arXiv
1810:and
1750:and
1665:and
1611:and
1589:and
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938:2015
934:JHEP
288:and
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