Approaches to Quantum Gravity

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66 J. Stachel[13] S. Frittelli, C. Kozameh, E. Newman, C. Rovelli, R. Tate, “On the quantization ofthe null-surface formulation of General Relativity (1997), arXiv:gr-qc/96102010 v1.[14] H. Goenner, On the history of unified field theories (2005),http://www.livingreviews.org/lrr-2004-2.[15] G. S. Hall, Symmetries and Curvature Structure in General Relativity (Singapore:World Scientific, 2004).[16] J. Klarfeld, and A. Komar , “Commutation relations at null infinity for interactingmassless fields”, Physical Review D (1971), 987–994.[17] A. Komar, “The general relativistic quantization program, in ContemporaryResearch in the Foundations and Philosophy of Quantum Theory, C. A. Hooker, ed.(Dordrecht/Boston: D. Reidel, 1973), pp. 305–327.[18] M. Kuhlmann “Quantum Field Theory,” (2006), in Stanford Encyclopedia ofPhilosophy, http://plato.stanford.edu/entries/quantum-field-theory/.[19] H. Nicolai, K. Peeters, “Loop and spin foam gravity: a brief guide forbeginners” (2006), arXiv: hep-th/0601129 v2.[20] M. Niedermaier, “The asymptotic safety scenario in quantum gravity – anintroduction” (2006), arXiv:gr-qc/9412035 v1.[21] M. Reisenberger, World sheet formulations of gauge theories and gravitation (1994),arXiv:gr-qc/9412035 v1.[22] M. Reisenberger, C. Rovelli, “Sum over surfaces form of loop QG”, PhysicalReview D 56 (1997), 3490–3508 , gr-qc/9612035.[23] M. Reisenberger, C. Rovelli “Space Time states and covariant quantum theory,”arXiv:gr-qc/0111016 v2, Physical Review D 65: 125016 (2002).[24] D. Robinson, “Geometry, Null Hypersurfaces and New Variables,” Revisiting theFoundations of Relativistic Physics, Abhay Ashtekar et al., eds.(Dordrecht/Boston/London: Kluwer Academic, 2003), pp. 349–360.[25] B. J. Rosen, “The Use of Conformal Two-Structures in Initial Value Problems inGeneral Relativity,” Ph. D. Dissertation, Boston University, unpublished (1987).[26] C. Rovelli, “What is observable in classical and quantum gravity?” Classical andQuantum Gravity 8 (1991), 297–316.[27] C. Rovelli, Quantum Gravity (Cambridge: Cambridge University Press, 2004).[28] I. Sanchez-Rodriguez, “Intersection of G-structures of first or second order,”Proceedings of the Eighth International conference on Differential Geometry and ItsApplications, O. Kowalski, D. Krupka and J. Slovak, eds. (Opava: SilesianUniversity, 2001), pp. 135–140.[29] R. W. Sharpe, Differential Geometry: Cartan’s Generalization of Klein’s ErlangenProgram (New York: Springer-Verlag, 1997).[30] L. Smolin, “An invitation to loop quantum gravity” (2004), arXiv:hep-th/0408048 v3.[31] L. Smolin, Three Roads to Quantum Gravity (New York: Basic Books, 2001).[32] J. Stachel, “The generally covariant form of Maxwell’s equations” in J. C. Maxwellthe Sesquicentennial Symposium, M. S. Berger, ed. (Amsterdam/New York/Oxford:North Holland, 1984).[33] J. Stachel, “Feynman paths and quantum entanglement: is there any more to themystery?” in Potentiality, Entanglement and Passion-at-a-Distance: QuantumMechanical Studies for Abner Shimony, vol. 2, Robert S. Cohen et al., eds.(Dordrecht/Boston/London: Kluwer Academic, 1997), pp. 245–256.[34] J. Stachel, “Quantum logic,” in The Philosophy of Science/An Encyclopedia,vol. 2, Sahotra Sarkar and Jessica Pfeffer, eds. (New York/Abington: Routledge,2005), pp. 633–644.
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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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Page 124: Does locality fail at intermediate
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Page 178: 5Spacetime symmetries in histories
Page 182: 70 N. Savvidouof time. The developm
Page 186: 72 N. SavvidouIn order to define co
Page 190: 74 N. SavvidouThe novel feature in
Page 194: 76 N. SavvidouWe start instead from
Page 198: 78 N. SavvidouRelation between the
Page 202: 80 N. Savvidou5.4 A spacetime appro
Page 206: 82 N. Savvidouthe T 0 variables - a
Page 210: Categorical geometry and the mathem
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92 L. CraneClassical behavior occur
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94 L. CraneOne could then apply the
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96 L. CraneThis model also has a na
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98 L. Crane[13] J. Barrett and L. C
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100 O. DreyerIsspacetimefundamental
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102 O. DreyerSince the inverse prop
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104 O. Dreyerwhere we have denoted
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106 O. Dreyerand the points are the
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108 O. Dreyerm 1m 2=− v 2v 1. (7.
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110 O. DreyerIn addition to the pro
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112 R. PercacciIn section 8.2 I int
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114 R. Percaccithis case the theory
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116 R. PercacciThe requirement of r
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118 R. Percaccibe bounded. This is
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120 R. Percacciwhere the heat kerne
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122 R. Percacci~G10.80.60.40.2-0.2
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124 R. Percacciwill still be possib
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126 R. PercacciEinstein-Hilbert act
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128 R. Percacci[24] O. Lauscher and
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130 F. Markopoulouhas been claimed
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132 F. Markopoulouvertex x ∈ V (
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134 F. MarkopoulouNote that complet
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136 F. Markopoulou9.2.2 The meaning
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138 F. MarkopoulouFock space for th
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140 F. MarkopoulouA = 1A 2A 3A 4===
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142 F. Markopouloueffective theorie
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144 F. MarkopoulouQuantum Field The
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146 F. Markopoulouis concerned with
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148 F. MarkopoulouThe dynamics is p
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Questions and answers• Q - L. Cra
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152 Questions and answersHausdorff
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154 Questions and answers- A-R.Sork
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156 Questions and answersNow a good
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158 Questions and answerswould seem
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160 Questions and answers3. You men
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162 Questions and answers- A - R. P
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164 Questions and answersnotion of
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Part IIString/M-theory
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170 G. Horowitz and J. Polchinskia
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172 G. Horowitz and J. Polchinskiwh
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174 G. Horowitz and J. Polchinskiwi
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176 G. Horowitz and J. Polchinskiwh
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178 G. Horowitz and J. PolchinskiTh
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180 G. Horowitz and J. Polchinskimo
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182 G. Horowitz and J. PolchinskiNo
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184 G. Horowitz and J. Polchinskica
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186 G. Horowitz and J. Polchinski[2
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188 T. BanksThis looks peculiar to
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190 T. BanksThis lightning review o
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192 T. BanksSince the holographic s
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194 T. Banksdefinition of local evo
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196 T. Bankswe have postulated are
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198 T. Bankswith observerphilic def
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200 T. Banksde Sitter horizon is th
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202 T. Banksof the dS-Schwarzschild
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204 T. BanksThus, there are of orde
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206 T. Banksit has given us a const
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208 T. Banks[3] G. T. Horowitz, The
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12String field theoryW. TAYLOR12.1
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212 W. Taylorpossible configuration
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214 W. Taylorraising operators α
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216 W. Taylor❍❨ 1❍❍✟✟
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218 W. Taylorlevel truncation is to
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220 W. Taylordifferent descriptions
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222 W. TaylorIn closed string field
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224 W. Taylorclosed string field th
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226 W. Tayloror other 6D manifold.
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228 W. Taylor[37] W. Taylor, & B. Z
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230 Questions and answers3. You sta
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232 Questions and answers(proving t
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13Loop quantum gravityT. THIEMANN13
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Loop quantum gravity 23713.2 Canoni
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Loop quantum gravity 239In what fol
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Loop quantum gravity 241equivalence
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Loop quantum gravity 243∂ F τ f,
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Loop quantum gravity 245will play t
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Loop quantum gravity 247U(ϕ)T n =
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Loop quantum gravity 249a definite,
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Loop quantum gravity 251[28] T. Thi
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14Covariant loop quantum gravity?E.
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Covariant loop quantum gravity? 255
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The spin foam representation of loo
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Three-dimensional spin foam Quantum
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The group field theory approach to
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Questions and answers 333the holes
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Questions and answers 335their vacu
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Questions and answers 337of some so
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18Quantum Gravity: the art of build
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Quantum Gravity: the art of buildin
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Quantum Regge calculus 361is given
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Quantum Regge calculus 363group. We
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Quantum Regge calculus 365emanating
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Quantum Regge calculus 367We will s
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Quantum Regge calculus 369reason, d
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Quantum Regge calculus 371gravitati
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Quantum Regge calculus 373where ξ
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Quantum Regge calculus 375[4] J. W.
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Quantum Regge calculus 377[52] M. L
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Consistent discretizations as a roa
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21The causal set approach to Quantu
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The causal set approach to Quantum
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22Quantum Gravity phenomenologyG. A
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Quantum Gravity phenomenology 429Ta
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Quantum Gravity phenomenology 431th
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Quantum Gravity phenomenology 433co
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Quantum Gravity phenomenology 435po
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Quantum Gravity phenomenology 437Fr
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Quantum Gravity phenomenology 439le
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Quantum Gravity phenomenology 441pr
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Quantum Gravity phenomenology 443wa
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Quantum Gravity phenomenology 445is
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Quantum Gravity phenomenology 447sc
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Quantum Gravity phenomenology 449[2
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Quantum Gravity and precision tests
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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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