Quantum Gravity

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352 REFERENCESTeitelboim, C. (1980). The Hamiltonian structure of space-time. In Generalrelativity and gravitation, Vol. 1 (ed. A. Held), pp. 195–225. Plenum, NewYork.Teitelboim, C. (1982). Quantum mechanics of the gravitational field. Phys. Rev.D, 25, 3159–79.Teitelboim, C. (1984). The Hamiltonian structure of two-dimensional space–time. In Quantum theory of gravity (ed. S. M. Christensen), pp. 327–44. AdamHilger, Bristol.Teitelboim, C. and Zanelli, J. (1987). Dimensionally continued topological gravitationtheory in Hamiltonian form. Class. Quantum Grav., 4, L125–9.Thiemann, T. (1996). Anomaly-free formulation of non-perturbative, four-dimensional,Lorentzian quantum gravity. Phys. Lett. B, 380, 257–64.Thiemann, T. (2001). Introduction to modern canonical quantum general relativity.http://arxiv.org/abs/gr-qc/0110034 [301 pages] (cited on December 15,2006).Thiemann, T. (2003). Lectures on loop quantum gravity. In Quantum gravity:From theory to experimental search (ed. D. Giulini, C. Kiefer, and C. Lämmerzahl),pp. 41–135. Lecture Notes in Physics 631. Springer, Berlin.Thiemann, T. (2006). The Phoenix Project: Master constraint programme forloop quantum gravity. Class. Quantum Grav., 23, 2211–48.Thiemann, T. and Kastrup, H. A. (1993). Canonical quantization of sphericallysymmetric gravity in Ashtekar’s self-dual representation. Nucl. Phys. B, 399,211–58.’t Hooft, G. and Veltman, M. (1972). Combinatorics of gauge fields. Nucl. Phys.B, 50, 318–53.’t Hooft, G. and Veltman, M. (1974). One-loop divergencies in the theory ofgravitation. Ann. Inst. Henri Poincaré A, 20, 69–94.Tomboulis, E. (1977). 1/N expansion and renormalization in quantum gravity.Phys. Lett. B, 70, 361–4.Torre, C. G. (1993). Is general relativity an ‘already parametrized’ theory?Phys. Rev. D, 46, 3231–4.Torre, C. G. (1999). Midisuperspace models of canonical quantum gravity. Int.J. Theor. Phys., 38, 1081–102.Torre, C. G. and Varadarajan, M. (1999). Functional evolution of free quantumfields. Class. Quantum Grav., 16, 2651–68.Tryon, E. P. (1973). Is the universe a vacuum fluctuation? Nature, 246, 396–7.Tsamis, N. C. and Woodard, R. P. (1987). The factor-ordering problem mustbe regulated. Phys. Rev. D, 36, 3641–50.Tsamis, N. C. and Woodard, R. P. (1993). Relaxing the cosmological constant.Phys. Lett. B, 301, 351–7.Unruh, W. G. (1976). Notes on black-hole evaporation. Phys. Rev. D, 14, 870–92.Unruh, W. G. (1984). Steps towards a quantum theory of gravity. In Quantumtheory of gravity (ed. S. M. Christensen), pp. 234–42. Adam Hilger, Bristol.
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INTERNATIONAL SERIESOFMONOGRAPHS ON
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Quantum GravitySecond EditionCLAUS
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PREFACE TO THE SECOND EDITIONThe co
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PREFACEThe unification of quantum t
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CONTENTS1 Why quantum gravity? 11.1
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CONTENTSxi7.4.3 Quantization 2267.5
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1WHY QUANTUM GRAVITY?1.1 Quantum th
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QUANTUM THEORY AND THE GRAVITATIONA
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PROBLEMS OF A FUNDAMENTALLY SEMICLA
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APPROACHES TO QUANTUM GRAVITY 23is
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2COVARIANT APPROACHES TO QUANTUM GR
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THE CONCEPT OF A GRAVITON 27two ind
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THE CONCEPT OF A GRAVITON 29Exploit
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THE CONCEPT OF A GRAVITON 31of the
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THE CONCEPT OF A GRAVITON 33only th
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THE CONCEPT OF A GRAVITON 35¬Þ Ð
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THE CONCEPT OF A GRAVITON 37where P
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PATH-INTEGRAL QUANTIZATION 39state
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PATH-INTEGRAL QUANTIZATION 41canoni
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PATH-INTEGRAL QUANTIZATION 43intera
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PATH-INTEGRAL QUANTIZATION 45quantu
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PATH-INTEGRAL QUANTIZATION 47R 3 an
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PATH-INTEGRAL QUANTIZATION 49Perfor
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PATH-INTEGRAL QUANTIZATION 51 ££
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PATH-INTEGRAL QUANTIZATION 53Ven (1
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PATH-INTEGRAL QUANTIZATION 55formal
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PATH-INTEGRAL QUANTIZATION 57Unfort
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PATH-INTEGRAL QUANTIZATION 59F =
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PATH-INTEGRAL QUANTIZATION 61and c
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PATH-INTEGRAL QUANTIZATION 63first
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PATH-INTEGRAL QUANTIZATION 65is obt
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PATH-INTEGRAL QUANTIZATION 67t+1t(4
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PATH-INTEGRAL QUANTIZATION 69For th
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QUANTUM SUPERGRAVITY 71quantum fiel
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3PARAMETRIZED AND RELATIONAL SYSTEM
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PARTICLE SYSTEMS 75can be set to ze
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and are compatible with the time ev
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where herePARTICLE SYSTEMS 79H S
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THE FREE BOSONIC STRING 81render th
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THE FREE BOSONIC STRING 83andĤ 1
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THE FREE BOSONIC STRING 85In the st
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PARAMETRIZED FIELD THEORIES 87with
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PARAMETRIZED FIELD THEORIES 89Ü Ü
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PARAMETRIZED FIELD THEORIES 91space
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RELATIONAL DYNAMICAL SYSTEMS 93X x
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RELATIONAL DYNAMICAL SYSTEMS 95wher
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RELATIONAL DYNAMICAL SYSTEMS 97This
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THE SEVENTH ROUTE TO GEOMETRODYNAMI
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THE 3+1 DECOMPOSITION OF GENERAL RE
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120 HAMILTONIAN FORMULATION OF GENE
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134 QUANTUM GEOMETRODYNAMICSand its
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136 QUANTUM GEOMETRODYNAMICSBell (1
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138 QUANTUM GEOMETRODYNAMICSThe fir
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140 QUANTUM GEOMETRODYNAMICS5. ‘S
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142 QUANTUM GEOMETRODYNAMICSwhere h
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144 QUANTUM GEOMETRODYNAMICSperienc
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146 QUANTUM GEOMETRODYNAMICS∞∑k
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148 QUANTUM GEOMETRODYNAMICSThe ‘
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150 QUANTUM GEOMETRODYNAMICSIn anal
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152 QUANTUM GEOMETRODYNAMICS∫δZ
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154 QUANTUM GEOMETRODYNAMICSfields.
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156 QUANTUM GEOMETRODYNAMICSand π
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158 QUANTUM GEOMETRODYNAMICSwhere D
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160 QUANTUM GEOMETRODYNAMICSn AA′
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162 QUANTUM GEOMETRODYNAMICSThe tim
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164 QUANTUM GEOMETRODYNAMICSH AA
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166 QUANTUM GEOMETRODYNAMICSnatural
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168 QUANTUM GEOMETRODYNAMICSOne can
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170 QUANTUM GEOMETRODYNAMICSan expa
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172 QUANTUM GEOMETRODYNAMICS∫∂
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174 QUANTUM GEOMETRODYNAMICS] [Ĥg
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176 QUANTUM GEOMETRODYNAMICSSection
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178 QUANTUM GEOMETRODYNAMICStechnic
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180 QUANTUM GEOMETRODYNAMICSÑ ¾
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182 QUANTUM GRAVITY WITH CONNECTION
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200 QUANTIZATION OF BLACK HOLESto a
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202 QUANTIZATION OF BLACK HOLESTabl
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204 QUANTIZATION OF BLACK HOLESrepl
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206 QUANTIZATION OF BLACK HOLESThe
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208 QUANTIZATION OF BLACK HOLEScan
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210 QUANTIZATION OF BLACK HOLESAsht
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212 QUANTIZATION OF BLACK HOLESAs l
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214 QUANTIZATION OF BLACK HOLESIntr
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216 QUANTIZATION OF BLACK HOLESwhic
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218 QUANTIZATION OF BLACK HOLESclud
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220 QUANTIZATION OF BLACK HOLESTaki
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222 QUANTIZATION OF BLACK HOLESradi
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224 QUANTIZATION OF BLACK HOLESÂ
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226 QUANTIZATION OF BLACK HOLESseco
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228 QUANTIZATION OF BLACK HOLESψ
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230 QUANTIZATION OF BLACK HOLESTher
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232 QUANTIZATION OF BLACK HOLESWe m
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234 QUANTIZATION OF BLACK HOLESandB
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236 QUANTIZATION OF BLACK HOLESE =
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238 QUANTIZATION OF BLACK HOLESThis
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240 QUANTIZATION OF BLACK HOLESlog
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242 QUANTIZATION OF BLACK HOLESlg
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244 QUANTUM COSMOLOGYconcerns in pa
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246 QUANTUM COSMOLOGY8.1.2 Quantiza
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248 QUANTUM COSMOLOGYso one might a
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250 QUANTUM COSMOLOGYOne recognizes
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252 QUANTUM COSMOLOGYWhereas in the
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254 QUANTUM COSMOLOGYFig. 8.2. Wave
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256 QUANTUM COSMOLOGY)(− ∂2 ∂
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258 QUANTUM COSMOLOGYThe second-ord
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260 QUANTUM COSMOLOGYwaves and are
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262 QUANTUM COSMOLOGYOne could also
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264 QUANTUM COSMOLOGYExcept in simp
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266 QUANTUM COSMOLOGYTimetImaginary
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268 QUANTUM COSMOLOGYfrom the no-bo
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270 QUANTUM COSMOLOGYbetween ψ T a
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272 QUANTUM COSMOLOGY8.3.5 Symmetri
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274 QUANTUM COSMOLOGYwhere in the c
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276 QUANTUM COSMOLOGYholonomies int
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278 QUANTUM COSMOLOGYfor recollapsi
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280 STRING THEORY4. All ‘particle
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282 STRING THEORYH = 1 2∞∑n=−
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284 STRING THEORYD − 2 = 24 degre
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286 STRING THEORYThe full action is
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288 STRING THEORYdivergences of qua
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290 STRING THEORYWe have already em
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292 STRING THEORY√X µ R (σ− )
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294 STRING THEORY(and beyond) for c
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296 STRING THEORYdetails.We start b
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298 STRING THEORYThere exist two di
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300 STRING THEORYhole can form if g
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302 STRING THEORYthe metric is flat
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304 STRING THEORYaccount. We shall
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306 STRING THEORYholographic princi
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308 INTERPRETATION10.1.1 Decoherenc
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310 INTERPRETATIONthe quantum entan
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312 INTERPRETATIONThe time t that a
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314 INTERPRETATIOND(t|φ, φ ′ )=
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316 INTERPRETATIONFor a massive min
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318 INTERPRETATIONwhich are dynamic
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320 INTERPRETATIONAlthough most of
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322 INTERPRETATIONthe existence of
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324 INTERPRETATIONclassical turning
Page 676: 326 INTERPRETATIONquantum-gravitati
Page 680: 328 REFERENCESAshtekar, A. and Lewa
Page 684: 330 REFERENCESBarvinsky, A. O., Kam
Page 688: 332 REFERENCESBojowald, M. (2001b).
Page 692: 334 REFERENCESCsordás, A. and Grah
Page 696: 336 REFERENCESpp. 458-73. Birkhäus
Page 700: 338 REFERENCESGiulini, D. (2003). T
Page 704: 340 REFERENCESHawking, S. W. (1976)
Page 708: 342 REFERENCESIwasaki, Y. (1971). Q
Page 712: 344 REFERENCEShttp://www.livingrevi
Page 716: 346 REFERENCESLoll, R., Westra, W.,
Page 720: 348 REFERENCESNúñez, D., Quevedo,
Page 724: 350 REFERENCESRosenfeld, L. (1963).
Page 730: REFERENCES 353Uzan, J.-P. (2003). T
Page 734: REFERENCES 355Zeh, H. D. (1986). Em
Page 738: INDEXabsolute elements, 73accelerat
Page 742: INDEX 359Hawking temperature, 14, 2
Page 746: INDEX 361in minisuperspace, 249Wick
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Quantum Gravity

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