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131: 578: 310: 78: 62: 46: 30: 220: 262:, and mathematicians are working to develop a mathematical understanding of the relationship based on physicists' intuition. Mirror symmetry is also a fundamental tool for doing calculations in string theory, and it has been used to understand aspects of 552: 112:. I enjoy the challenge of explaining these technical subjects in an accessible way while still making the articles comprehensive and useful to experts. So far, I've helped bring three of the string theory articles to 380: 620: 610: 488: 177: 615: 242:. The term refers to a situation where two Calabi–Yau manifolds look very different geometrically but are nevertheless equivalent when employed as 431: 100: 456: 130: 337: 250:. Mirror symmetry was originally discovered by physicists. Mathematicians became interested in this relationship around 1990 when 436: 53: 45: 296: 227: 341: 254:, Xenia de la Ossa, Paul Green, and Linda Parks showed that it could be used as a tool in a branch of mathematics called 271: 113: 309: 344:. Work by several physicists showed that the original five theories could be related by transformations called 201: 236: 360:. Some physicists believe that a complete formulation of M-theory could provide a framework for developing a 461: 369: 85: 441: 373: 353: 206: 193: 147: 138: 69: 204: 151: 182: 77: 61: 558: 466: 361: 263: 255: 219: 155: 109: 105: 37: 29: 357: 267: 143: 446: 322: 190: 186: 577: 365: 283: 275: 259: 178: 547:{\displaystyle \scriptstyle {\frac {\partial ^{2}\Psi }{\partial t^{2}}}=\nabla ^{2}\Psi } 251: 243: 197: 162: 287: 279: 174: 181: 604: 586: 414: 404: 333: 326: 247: 166: 101: 146: 321: 451: 291: 154: 419: 409: 349: 345: 382: 317: 232: 170: 426: 399: 368: 340: 325:. The possibility of such a theory was first conjectured by 189:. In addition, it provides a powerful toolkit for studying 352:. Witten's conjecture drew on these dualities and on a 492: 491: 258:. Today mirror symmetry is a major research topic in 185:, an idea in quantum gravity originally proposed by 139: 546: 270:. Major approaches to mirror symmetry include the 266:, the formalism that physicists use to describe 8: 15: 196:and has been used to study many aspects of 534: 518: 500: 493: 490: 225:In mathematics and theoretical physics, 621:Wikipedians interested in string theory 611:Wikipedians interested in mathematics 7: 482: 432:6D (2,0) superconformal field theory 150:, including theories similar to the 540: 531: 511: 506: 497: 457:Geometric Langlands correspondence 14: 616:Wikipedians interested in physics 338:University of Southern California 576: 571: 437:ABJM superconformal field theory 308: 218: 161:, which are used in theories of 129: 76: 60: 44: 28: 1: 342:second superstring revolution 584:This user is interested in 556:This user is interested in 376:. According to Witten, the 272:homological mirror symmetry 637: 356:called eleven-dimensional 231:is a relationship between 18: 165:, formulated in terms of 394:Other projects include: 202:condensed matter physics 159:(cross section depicted) 148:conformal field theories 82: 75: 66: 59: 50: 43: 34: 27: 462:Matrix theory (physics) 548: 442:AdS/CMT correspondence 194:quantum field theories 104:and related topics in 549: 374:gauge/gravity duality 183:holographic principle 156:anti-de Sitter spaces 559:mathematical physics 489: 467:String phenomenology 383:Full article... 297:Full article... 268:elementary particles 264:quantum field theory 256:enumerative geometry 237:Calabi–Yau manifolds 207:Full article... 110:mathematical physics 106:quantum field theory 152:Yang–Mills theories 144:theoretical physics 142:is a conjecture in 544: 543: 447:AGT correspondence 366:fundamental forces 336:conference at the 323:superstring theory 599: 598: 594: 593: 566: 565: 525: 284:Andrew Strominger 125:November 17, 2013 120:Featured articles 97: 96: 628: 580: 572: 553: 551: 550: 545: 539: 538: 526: 524: 523: 522: 509: 505: 504: 494: 483: 478: 477: 312: 276:Maxim Kontsevich 260:pure mathematics 244:extra dimensions 222: 191:strongly coupled 179:non-perturbative 133: 80: 64: 48: 32: 16: 636: 635: 631: 630: 629: 627: 626: 625: 601: 600: 595: 567: 530: 514: 510: 496: 495: 487: 486: 476: 471: 424: 392: 313: 306: 252:Philip Candelas 235:objects called 228:mirror symmetry 223: 216: 187:Gerard 't Hooft 163:quantum gravity 134: 127: 122: 114:featured status 99: 12: 11: 5: 634: 632: 624: 623: 618: 613: 603: 602: 597: 596: 592: 591: 582: 570: 568: 564: 563: 554: 542: 537: 533: 529: 521: 517: 513: 508: 503: 499: 481: 475: 472: 470: 469: 464: 459: 454: 449: 444: 439: 434: 428: 423: 422: 417: 412: 407: 402: 396: 391: 390:Other articles 388: 362:unified theory 307: 305: 304:March 25, 2015 302: 288:Shing-Tung Yau 280:SYZ conjecture 217: 215: 214:April 13, 2014 212: 175:Juan Maldacena 173:. Proposed by 128: 126: 123: 121: 118: 95: 94: 91: 90: 81: 74: 65: 58: 49: 42: 33: 25: 24: 13: 10: 9: 6: 4: 3: 2: 633: 622: 619: 617: 614: 612: 609: 608: 606: 589: 588: 587:String Theory 583: 581: 579: 574: 573: 569: 561: 560: 555: 535: 527: 519: 515: 501: 485: 484: 480: 479: 473: 468: 465: 463: 460: 458: 455: 453: 450: 448: 445: 443: 440: 438: 435: 433: 430: 429: 427: 421: 418: 416: 415:String theory 413: 411: 408: 406: 405:Edward Witten 403: 401: 398: 397: 395: 389: 387: 385: 384: 379: 375: 371: 370:matrix theory 367: 363: 359: 355: 351: 347: 343: 339: 335: 334:string theory 331: 328: 327:Edward Witten 324: 320: 319: 311: 303: 301: 299: 298: 293: 289: 285: 281: 277: 273: 269: 265: 261: 257: 253: 249: 248:string theory 245: 241: 238: 234: 230: 229: 221: 213: 211: 209: 208: 203: 199: 195: 192: 188: 184: 180: 176: 172: 168: 167:string theory 164: 160: 157: 153: 149: 145: 141: 140: 132: 124: 119: 117: 115: 111: 107: 103: 102:string theory 93: 92: 89: 88: 87: 79: 73: 72: 71: 63: 57: 56: 55: 54:Contributions 47: 41: 40: 39: 31: 26: 23: 22: 17: 585: 575: 557: 425: 393: 381: 377: 358:supergravity 354:field theory 329: 316: 315:In physics, 314: 295: 239: 226: 224: 205: 158: 137: 135: 98: 84: 83: 68: 67: 52: 51: 36: 35: 20: 19: 452:Eric Zaslow 364:of all the 292:Eric Zaslow 274:program of 605:Categories 330:(pictured) 240:(pictured) 541:Ψ 532:∇ 512:∂ 507:Ψ 498:∂ 474:Userboxes 420:T-duality 410:S-duality 350:T-duality 346:S-duality 233:geometric 318:M-theory 278:and the 171:M-theory 198:nuclear 86:Sandbox 290:, and 70:Awards 400:Brane 332:at a 372:and 348:and 200:and 136:The 108:and 38:Talk 294:. 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