Approaches to Quantum Gravity

More documents

Recommendations

Info

Three-dimensional spin foam Quantum Gravity 309 [12] L. Freidel, D. Louapre, Asymptotics of 6j and 10j symbols, Class. Quant. Grav. 20 (2003) 1267, hep-th/0209134. [13] A. M. Polyakov (Moscow, ITEP), Gauge Fields And Strings, Contempory Concepts in Physics, 3 (Chur, Switzerland: Harwood, 1987). [14] D. Oriti, T. Tlas, Causality and matter propagation in 3d spin foam quantum gravity, Phys. Rev. D 74 (2006) 104021 [arXiv:gr-qc/0608116]. [15] J. W. Barrett, I. Naish-Guzman, The Ponzano–Regge model and Reidemeister torsion, arXiv:gr-qc/0612170. [16] A. Baratin, L. Freidel, Hidden quantum gravity in 3d Feynman diagrams, arXiv:gr-qc/0604016. [17] J. W. Barrett, Feynman diagams coupled to three-dimensional quantum gravity, Class. Quant. Grav. 23 (2006) 137 [arXiv:gr-qc/0502048]. [18] L. Freidel, S. Majid, Noncommutative harmonic analysis, sampling theory and the Duflo map in 2+1 quantum gravity, arXiv:hep-th/0601004. [19] G. ’t Hooft, Quantization of space and time in 3 and in 4 space-time dimensions, arXiv:gr-qc/9608037. [20] S. Imai, N. Sasakura, Scalar field theories in a Lorentz-invariant three-dimensional noncommutative space-time, JHEP 0009 (2000) 032 [arXiv:hep-th/0005178]. [21] G. t’Hooft, Non-perturbative 2 particle scattering amplitude in 2+1 dimensional quantum gravity, Commun. Math. Phys. 117 (1988) 685700. [22] S. Deser, R. Jackiw, Classical and quantum scattering on a cone, Commun. Math. Phys. 118 (1988) 495509. [23] S. Carlip, Exact quantum scattering in (2+1)-dimensional gravity, Nucl. Phys. B324 (1989) 106122. [24] F. A. Bais, N. M. Muller, B. J. Schroers, Quantum group symmetry and particle scattering in (2+1)-dimensional quantum gravity, Nucl. Phys. B 640, (2002) 3 , hep-th/0205021. [25] R. Oeckl, Introduction to braided quantum field theory, Int. J. Mod. Phys. B 14 (2000) 2461. [26] L. Freidel, A Ponzano–Regge model of Lorentzian 3-dimensional gravity, Nucl. Phys. Proc. Suppl. 88 (2000) 237–240, gr-qc/0102098. [27] S. Davids, A state sum model for (2+1) Lorentzian Quantum Gravity, gr-qc/0110114. [28] L. Freidel, E. R. Livine, Spin networks for non-compact groups, J. Math. Phys. 44 (2003) 1322–1356, hep-th/0205268; [29] V. G. Turaev, O. Y. Viro, State sum invariants of 3 manifolds, and quantum {6 j} symbols, Topology 31 (1992) 865–902. [30] J. Kowalski-Glikman, Introduction to doubly special relativity (2004), hep-th/0405273. [31] H. Snyder, Quantized space-time, Phys.Rev. 71 (1947) 38. [32] A. Baratin, L. Freidel, Hidden quantum gravity in 4d Feynman diagrams: Emergence of spin foams (2006), arXiv:hep-th/0611042. [33] L. Freidel, A. Starodubtsev, Quantum gravity in terms of topological observables, (2005), hep-th/0501191.
Page 2:
This page intentionally left blank
Page 8:
APPROACHES TO QUANTUM GRAVITY Towar
Page 12:
A Sandra
Page 18:
viii Contents 11 String theory, hol
Page 22:
Contributors J. Ambjørn The Niels
Page 26:
xii List of contributors D. Oriti M
Page 32:
Preface Quantum Gravity is a dream,
Page 36:
Preface xvii are following in their
Page 40:
Preface xix enormous amount of prog
Page 48:
1 Unfinished revolution C. ROVELLI
Page 52:
Unfinished revolution 5 wit of empi
Page 56:
Unfinished revolution 7 In general
Page 60:
Unfinished revolution 9 However, re
Page 64:
Unfinished revolution 11 References
Page 68:
2 The fundamental nature of space a
Page 72:
The fundamental nature of space and
Page 76:
Page 80:
Page 84:
Page 88:
Page 92:
Page 96:
Does locality fail at intermediate
Page 100:
Page 104:
Page 108:
Page 112:
Page 116:
∫ Does locality fail at intermedi
Page 120:
Page 124:
Page 128:
Page 132:
Prolegomena to any future Quantum G
Page 136:
Page 140:
Page 144:
Page 148:
Page 152:
Page 156:
Page 160:
Page 164:
Page 168:
Page 172:
Page 176:
Page 180:
Spacetime symmetries in histories c
Page 184:
Page 188:
Page 192:
Page 196:
Page 200:
Page 204:
Page 208:
Page 212:
Categorical geometry and the mathem
Page 216:
Page 220:
Page 224:
Page 228:
Page 232:
Page 236:
Page 240:
7 Emergent relativity O. DREYER 7.1
Page 244:
A (a) Emergent relativity 101 (b) (
Page 248:
Emergent relativity 103 It is here
Page 252:
Emergent relativity 105 spacetime c
Page 256:
Emergent relativity 107 φ A B Fig.
Page 260:
Emergent relativity 109 If, on the
Page 264:
8 Asymptotic safety R. PERCACCI 8.1
Page 268:
Asymptotic safety 113 field and the
Page 272:
Asymptotic safety 115 For example,
Page 276:
Asymptotic safety 117 If we choose
Page 280:
Asymptotic safety 119 complex field
Page 284:
Asymptotic safety 121 2 G ~ ~ 1.5 1
Page 288:
Asymptotic safety 123 larger, and i
Page 292:
Asymptotic safety 125 Dimensional a
Page 296:
Asymptotic safety 127 References [1
Page 300:
9 New directions in background inde
Page 304:
New directions in background indepe
Page 308:
Page 312:
Page 316:
Page 320:
Page 324:
Page 328:
Page 332:
Page 336:
Page 340:
Page 344:
Questions and answers 151 Quantum G
Page 348:
Questions and answers 153 was that
Page 352:
Questions and answers 155 causality
Page 356:
Questions and answers 157 to hold),
Page 360:
Questions and answers 159 of how gr
Page 364:
Questions and answers 161 the actio
Page 368:
Questions and answers 163 allow us
Page 372:
Questions and answers 165 - A-F.Mar
Page 380:
10 Gauge/gravity duality G. HOROWIT
Page 384:
Gauge/gravity duality 171 strong an
Page 388:
Gauge/gravity duality 173 decompose
Page 392:
Gauge/gravity duality 175 Here l s
Page 396:
Gauge/gravity duality 177 There is
Page 400:
Gauge/gravity duality 179 these are
Page 404:
Gauge/gravity duality 181 leading t
Page 408:
Gauge/gravity duality 183 states to
Page 412:
Gauge/gravity duality 185 [6] N. Be
Page 416:
11 String theory, holography and Qu
Page 420:
String theory, holography and Quant
Page 424:
Page 428:
Page 432:
Page 436:
Page 440:
Page 444:
Page 448:
Page 452:
Page 456:
Page 460:
Page 464:
String field theory 211 no tools to
Page 468:
String field theory 213 made an ins
Page 472:
(d) Cyclicity: ∫ ⋆= (−1) G G
Page 476:
String field theory 217 however, th
Page 480:
String field theory 219 12.2.3 Outs
Page 484:
String field theory 221 a review) g
Page 488:
String field theory 223 similar com
Page 492:
String field theory 225 this; the p
Page 496:
String field theory 227 [11] T. G.
Page 500:
Questions and answers • Q - D. Or
Page 504:
Questions and answers 231 condition
Page 508:
Part III Loop quantum gravity and s
Page 514:
236 T. Thiemann (anti)commute. We s
Page 518:
238 T. Thiemann Notice that in gene
Page 522:
240 T. Thiemann spectrum of all the
Page 526:
242 T. Thiemann order to avoid anom
Page 530:
244 T. Thiemann We consider spaceti
Page 534:
246 T. Thiemann Hence both gauge gr
Page 538:
248 T. Thiemann that Ĉ(N) cannot b
Page 542:
250 T. Thiemann [8] R. Brunetti, K.
Page 546:
252 T. Thiemann [48] M. Bojowald, H
Page 550:
254 E. Livine SU(2) gauge theory. T
Page 554:
256 E. Livine space; η IJ is the f
Page 558:
258 E. Livine However, in contrast
Page 562:
260 E. Livine (i) Either we work wi
Page 566:
262 E. Livine At the end of the day
Page 570:
264 E. Livine projector at the end
Page 574:
266 E. Livine for a surface S inter
Page 578:
268 E. Livine This constraint is sa
Page 582:
270 E. Livine we do not need the se
Page 586:
15 The spin foam representation of
Page 590:
274 A. Perez in classical general r
Page 594:
276 A. Perez where M = ×R (for an
Page 598:
278 A. Perez the Levi-Civita tensor
Page 602:
280 A. Perez k Tr[ k (W p )] ✄ j
Page 606:
282 A. Perez j j j k j k m k m j j
Page 610: 284 A. Perez Here we studied the in
Page 614: 286 A. Perez A spin foam representa
Page 618: 288 A. Perez master-constraint prog
Page 622: 16 Three-dimensional spin foam Quan
Page 626: 292 L. Freidel 16.3 The Ponzano-Reg
Page 630: 294 L. Freidel under usual gauge tr
Page 634: 296 L. Freidel is now constrained t
Page 638: 298 L. Freidel 16.4.1 Mathematical
Page 642: 300 L. Freidel Therefore, at first
Page 646: 302 L. Freidel The inverse group Fo
Page 650: 304 L. Freidel From this identity,
Page 654: 306 L. Freidel choice of statistics
Page 658: 308 L. Freidel A deeper study of th
Page 664: The group field theory approach to
Page 708: Questions and answers 333 the holes
Page 712:
Questions and answers 335 their vac
Page 716:
Questions and answers 337 of some s
Page 724:
18 Quantum Gravity: the art of buil
Page 728:
Quantum Gravity: the art of buildin
Page 732:
Page 736:
Page 740:
Page 744:
Page 748:
Page 752:
Page 756:
Page 760:
Page 764:
Quantum Regge calculus 361 is given
Page 768:
Quantum Regge calculus 363 group. W
Page 772:
Quantum Regge calculus 365 emanatin
Page 776:
Quantum Regge calculus 367 We will
Page 780:
Quantum Regge calculus 369 reason,
Page 784:
Quantum Regge calculus 371 gravitat
Page 788:
Quantum Regge calculus 373 where ξ
Page 792:
Quantum Regge calculus 375 [4] J. W
Page 796:
Quantum Regge calculus 377 [52] M.
Page 800:
Consistent discretizations as a roa
Page 804:
Page 808:
Page 812:
Page 816:
Page 820:
Page 824:
Page 828:
21 The causal set approach to Quant
Page 832:
The causal set approach to Quantum
Page 836:
Page 840:
Page 844:
Page 848:
Page 852:
Page 856:
Page 860:
Page 864:
Page 868:
Page 872:
Page 876:
Page 880:
Page 884:
Page 888:
Page 896:
22 Quantum Gravity phenomenology G.
Page 900:
Quantum Gravity phenomenology 429 T
Page 904:
Quantum Gravity phenomenology 431 t
Page 908:
Quantum Gravity phenomenology 433 c
Page 912:
Quantum Gravity phenomenology 435 p
Page 916:
Quantum Gravity phenomenology 437 F
Page 920:
Quantum Gravity phenomenology 439 l
Page 924:
Quantum Gravity phenomenology 441 p
Page 928:
Quantum Gravity phenomenology 443 w
Page 932:
Quantum Gravity phenomenology 445 i
Page 936:
Quantum Gravity phenomenology 447 s
Page 940:
Quantum Gravity phenomenology 449 [
Page 944:
Quantum Gravity and precision tests
Page 948:
Page 952:
Page 956:
Page 960:
Page 964:
Page 968:
Page 972:
Page 976:
Algebraic approach to Quantum Gravi
Page 980:
Page 984:
Page 988:
Page 992:
Page 996:
Page 1000:
Page 1004:
Page 1008:
Page 1012:
Page 1016:
Page 1020:
Page 1024:
Page 1028:
25 Doubly special relativity J. KOW
Page 1032:
Doubly special relativity 495 DSR t
Page 1036:
Doubly special relativity 497 On th
Page 1040:
Doubly special relativity 499 some
Page 1044:
Doubly special relativity 501 [x 0
Page 1048:
Doubly special relativity 503 that
Page 1052:
Doubly special relativity 505 can b
Page 1056:
Doubly special relativity 507 scale
Page 1060:
26 From quantum reference frames to
Page 1064:
From quantum reference frames to de
Page 1068:
Page 1072:
Page 1076:
Page 1080:
Page 1084:
Page 1088:
Page 1092:
Page 1096:
Page 1100:
Lorentz invariance violation & its
Page 1104:
Page 1108:
Page 1112:
Page 1116:
Page 1120:
Page 1124:
Page 1128:
Page 1132:
Page 1136:
Page 1140:
Generic predictions of quantum theo
Page 1144:
Page 1148:
Page 1152:
Page 1156:
Page 1160:
Page 1164:
Page 1168:
Page 1172:
Page 1176:
Page 1180:
Page 1184:
Questions and answers • Q - L. Cr
Page 1188:
Questions and answers 573 frame. Ju
Page 1192:
Questions and answers 575 - A - J.
Page 1196:
Questions and answers 577 where thi
Page 1200:
Questions and answers 579 would all
Page 1204:
Index 581 cosmology, 26, 155, 184,
Page 1208:
Index 583 emergent, 99, 109, 163, 1
show all

Approaches to Quantum Gravity

You also want an ePaper? Increase the reach of your titles

Delete template?

Save as template?