Approaches to Quantum Gravity

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Quantum Gravity phenomenology 449[25] G. Amelino-Camelia, Relativity in space-times with short-distance structuregoverned by an observer-independent (Planckian) length scale, Int. J. Mod. Phys.D 11 (2002) 35–60, gr-qc/0012051.[26] G. Amelino-Camelia, Testable scenario for relativity with minimum length,Phys. Lett. B 510 (2001) 255–263, hep-th/0012238.[27] T. Damour, F. Piazza and G. Veneziano, Violations of the equivalence principle in adilaton runaway scenario, Phys. Rev. D66 (2002) 046007, hep-th/0205111.[28] N. R. Douglas and N. A. Nekrasov: Rev. Mod. Phys. 73 (2001) 977.[29] J. Alfaro, H. A. Morales-Tecotl and L. F. Urrutia, Quantum Gravity corrections toneutrino propagation, Phys. Rev. Lett. 84 (2000) 2318–2321, gr-qc/9909079.[30] G. Amelino-Camelia, L. Smolin and A. Starodubtsev, Class. Quantum Grav. 21(2004) 3095, hep-th/0306134.[31] G. Amelino-Camelia, Int. J. Mod. Phys. D14 (2005) 2167, gr-qc/0506117.[32] G. Veneziano, Europhys. Lett. 2 (1986) 199.[33] D. J. Gross and P. F. Mende, Nucl. Phys. B303 (1988) 407.[34] D. Amati, M. Ciafaloni and G. Veneziano, Phys. Lett. B216 (1989) 41.[35] K. Konishi, G. Paffuti and P. Provero, Phys. Lett. B234 (1990) 276.[36] T. Yoneya, Mod. Phys. Lett. A4 (1989) 1587.[37] E. Witten, Phys. Today 49 (1996) 24.[38] G. Amelino-Camelia and F. Buccella, Testing kappa-Poincaré with neutral kaons,Mod. Phys. Lett. A15 (2000) 2119, hep-ph/0001305.[39] R. Lieu and L. W. Hillman, Astrophys. J. 585 (2003) L77.[40] W. A. Christiansen, Y. Jack Ng and H. van Dam, Probing spacetime foam withextragalactic sources, Phys. Rev. Lett. 96 (2006) 051301, gr-qc/0508121.[41] N. E. Mavromatos and S. Sarkar, Probing models of quantum decoherence inparticle physics and cosmology, hep-ph/0612193.[42] M. P. Haugan and C. Lammerzahl, Principles of equivalence: their role in gravitationphysics and experiments that test them, Lect. Notes Phys. 562 (2001) 195,gr-qc/0103067.[43] G. Amelino-Camelia, Phenomenology of Planck-scale Lorentz symmetry testtheories, New J. Phys. 6 (2004) 188, gr-qc/0212002.[44] T. Jacobson, S. Liberati and D. Mattingly, TeV astrophysics constraints on Planckscale Lorentz violation, Phys. Rev. D66 (2002) 081302, hep-ph/0112207.[45] G. Amelino-Camelia, Phys. Lett. B 528 (2002) 181–187, gr-qc/0107086.[46] T. J. Konopka and S. A. Major: New J. Phys. 4 (2002) 57.[47] J. P. Norris, J. T. Bonnell, G. F. Marani and J. D. Scargle, GLAST, GRBs andQuantum Gravity, astro-ph/9912136.[48] A. de Angelis, astro-ph/0009271.[49] T. Jacobson, S. Liberati and D. Mattingly, A strong astrophysical constraint on theviolation of special relativity, arXiv.org/abs/, Nature 424 (2003) 1019–1021,astro-ph/0212190v2.
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APPROACHES TO QUANTUM GRAVITYToward
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A Sandra
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viiiContents11 String theory, holog
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ContributorsJ. AmbjørnThe Niels Bo
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xiiList of contributorsD. OritiMax
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PrefaceQuantum Gravity is a dream,
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Prefacexviiare following in their s
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Prefacexixenormous amount of progre
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1Unfinished revolutionC. ROVELLIOne
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Unfinished revolution 5wit of empir
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Unfinished revolution 7In general r
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Unfinished revolution 9However, res
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Unfinished revolution 11References[
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2The fundamental nature of space an
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The fundamental nature of space and
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Does locality fail at intermediate
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∫Does locality fail at intermedia
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Prolegomena to any future Quantum G
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Spacetime symmetries in histories c
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Categorical geometry and the mathem
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7Emergent relativityO. DREYER7.1 In
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A(a)Emergent relativity 101(b)(c)B(
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Emergent relativity 103It is here t
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Emergent relativity 105spacetime co
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Emergent relativity 107φABFig. 7.4
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Emergent relativity 109If, on the o
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8Asymptotic safetyR. PERCACCI8.1 In
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Asymptotic safety 113field and the
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Asymptotic safety 115For example, t
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Asymptotic safety 117If we choose k
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Asymptotic safety 119complex fields
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Asymptotic safety 1212G ~ ~1.510.5-
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Asymptotic safety 123larger, and it
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Asymptotic safety 125Dimensional an
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Asymptotic safety 127References[1]
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9New directions in background indep
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New directions in background indepe
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Questions and answers 151Quantum Gr
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Questions and answers 153was that t
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Questions and answers 155causality
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Questions and answers 157to hold),
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Questions and answers 159of how gra
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Questions and answers 161the action
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Questions and answers 163allow us t
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Questions and answers 165- A-F.Mark
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10Gauge/gravity dualityG. HOROWITZ
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Gauge/gravity duality 171strong and
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Gauge/gravity duality 173decomposed
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Gauge/gravity duality 175Here l s i
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Gauge/gravity duality 177There is a
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Gauge/gravity duality 179these are
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Gauge/gravity duality 181leading to
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Gauge/gravity duality 183states to
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Gauge/gravity duality 185[6] N. Ber
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11String theory, holography and Qua
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String theory, holography and Quant
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String field theory 211no tools to
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String field theory 213made an insi
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(d) Cyclicity: ∫ ⋆= (−1) G G
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String field theory 217however, the
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String field theory 21912.2.3 Outst
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String field theory 221a review) gi
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String field theory 223similar comp
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String field theory 225this; the ph
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String field theory 227[11] T. G. E
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Questions and answers• Q - D. Ori
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Questions and answers 231condition
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Part IIILoop quantum gravity and sp
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236 T. Thiemann(anti)commute. We se
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238 T. ThiemannNotice that in gener
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240 T. Thiemannspectrum of all the
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242 T. Thiemannorder to avoid anoma
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244 T. ThiemannWe consider spacetim
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246 T. ThiemannHence both gauge gro
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248 T. Thiemannthat Ĉ(N) cannot be
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250 T. Thiemann[8] R. Brunetti, K.
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252 T. Thiemann[48] M. Bojowald, H.
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254 E. LivineSU(2) gauge theory. Th
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256 E. Livinespace; η IJ is the fl
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258 E. LivineHowever, in contrast t
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260 E. Livine(i) Either we work wit
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262 E. LivineAt the end of the day,
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264 E. Livineprojector at the end v
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266 E. Livinefor a surface S inters
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268 E. LivineThis constraint is sat
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270 E. Livinewe do not need the sec
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15The spin foam representation of l
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274 A. Perezin classical general re
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276 A. Perezwhere M = ×R (for an
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278 A. Perezthe Levi-Civita tensor.
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280 A. PerezkTr[ k (W p )] ✄jP=
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282 A. Perezjjjkjkmkmjjjjmkmkmkmkkj
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284 A. PerezHere we studied the int
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286 A. PerezA spin foam representat
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288 A. Perezmaster-constraint progr
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16Three-dimensional spin foam Quant
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292 L. Freidel16.3 The Ponzano-Regg
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294 L. Freidelunder usual gauge tra
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296 L. Freidelis now constrained to
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298 L. Freidel16.4.1 Mathematical s
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300 L. FreidelTherefore, at first o
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302 L. FreidelThe inverse group Fou
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304 L. FreidelFrom this identity, i
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306 L. Freidelchoice of statistics.
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308 L. FreidelA deeper study of the
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17The group field theory approach t
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312 D. Oritisimplicial complex, or
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314 D. Oritiare not all simultaneou
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316 D. Oritidiagrams correspond to
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318 D. Oritiis the simple fact that
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320 D. Oritibetter, by a single mat
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322 D. Oritior SO(3, 1)) [8; 9; 10]
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324 D. Oritiwhere: g i ∈ G, s i
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326 D. Oritiobservables in GFTs are
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328 D. Oritiresearch. On the other
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330 D. Oritiof the possibility of a
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Questions and answers• Q - L. Cra
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334 Questions and answersI partly d
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336 Questions and answersspectrum i
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Part IVDiscrete Quantum Gravity
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342 J. Ambjørn, J. Jurkiewicz and
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19Quantum Regge calculusR. WILLIAMS
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362 R. Williamsonly in flat space a
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364 R. Williamswhere V is the volum
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366 R. Williamsequations of motion.
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368 R. WilliamsDropping the 1/d cor
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370 R. WilliamsAt a typical interio
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372 R. Williamsabout which it makes
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374 R. Williamsdealt with include t
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376 R. Williams[27] H. W. Hamber, P
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20Consistent discretizations as a r
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380 R. Gambini and J. PullinThe mod
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382 R. Gambini and J. Pullinphase s
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384 R. Gambini and J. Pullin21q 20-
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386 R. Gambini and J. Pullinof the
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388 R. Gambini and J. Pullinaccepts
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390 R. Gambini and J. Pullinisomorp
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392 R. Gambini and J. Pullin[3] C.
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394 J. Hensonall the other subjects
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396 J. HensonzyxFig. 21.1. A causal
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398 J. Hensonthis way, no discreten
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400 J. Hensonout various sprinkling
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402 J. Hensoncommutes with rotation
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404 J. Hensonblack hole entropy (or
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406 J. Henson“Kleitman-Rothschild
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408 J. Hensonhistories suggest any
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410 J. Hensonthe type normally used
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412 J. Henson[17] R. D. Sorkin (199
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Questions and answers• Q - J. Hen
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416 Questions and answersthat the l
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418 Questions and answers2. The abo
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420 Questions and answersnot unimpo
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422 Questions and answers- A - R. G
Page 892: Part VEffective models and Quantum
Page 898: 428 G. Amelino-CameliaFor this phen
Page 902: 430 G. Amelino-Cameliacorrection to
Page 906: 432 G. Amelino-Cameliato the fact t
Page 910: 434 G. Amelino-Camelia22.2.2 Planck
Page 914: 436 G. Amelino-Cameliaformalism in
Page 918: 438 G. Amelino-Camelia22.3 On the s
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Page 926: 442 G. Amelino-CameliaA theory will
Page 930: 444 G. Amelino-Cameliawe might be c
Page 934: 446 G. Amelino-CameliaFor the dispe
Page 938: 448 G. Amelino-CameliaReferences[1]
Page 944: Quantum Gravity and precision tests
Page 976: Algebraic approach to Quantum Gravi
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Algebraic approach to Quantum Gravi
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25Doubly special relativityJ. KOWAL
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Doubly special relativity 495DSR to
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Doubly special relativity 497On the
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Doubly special relativity 499some o
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Doubly special relativity 501[x 0 ,
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Doubly special relativity 503that t
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Doubly special relativity 505can be
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Doubly special relativity 507scale,
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26From quantum reference frames to
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From quantum reference frames to de
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Lorentz invariance violation & its
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Generic predictions of quantum theo
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Questions and answers• Q - L. Cra
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Questions and answers 573frame. Jus
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Questions and answers 575- A - J. K
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Questions and answers 577where this
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Questions and answers 579would allo
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Index 581cosmology, 26, 155, 184, 1
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Index 583emergent, 99, 109, 163, 17
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Approaches to Quantum Gravity

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