Quantum Gravity
by Fauser, Bertfried; Tolksdorf, Jurgen; Zeidler, EberhardFormat: Hardcover
Pub. Date: 2007-02-03
Publisher(s): Birkhauser
Other versions by this Author
-
This Item Qualifies for Free Shipping!*
*Excludes marketplace orders.
List Price: $167.99
Buy New
Arriving Soon. Will ship when available.
$159.99
Rent Textbook
Select for Price
Used Textbook
We're Sorry
Sold Out
eTextbook
We're Sorry
Not Available
How Marketplace Works:
- This item is offered by an independent seller and not shipped from our warehouse
- Item details like edition and cover design may differ from our description; see seller's comments before ordering.
- Sellers much confirm and ship within two business days; otherwise, the order will be cancelled and refunded.
- Marketplace purchases cannot be returned to eCampus.com. Contact the seller directly for inquiries; if no response within two days, contact customer service.
- Additional shipping costs apply to Marketplace purchases. Review shipping costs at checkout.
Summary
The construction of a quantum theory of gravity is the most fundamental challenge confronting contemporary theoretical physics. The different physical ideas evolved in developing a theory of quantum gravity require highly advanced mathematical methods. This book provides the reader with an overview of the different mathematical attempts to quantize gravity written by leading experts in this field. Also discussed are the possible experimental bounds on quantum gravity effects. All of the contributions have been strictly refereed. The present volume emerged from the 2nd Blaubeuren Workshop "Mathematical and Physical Aspects of Quantum Gravity''. In general, these Workshops are intended to bring together experts in mathematics and physics to discuss in an open atmosphere the fundamental questions at the frontier of theoretical physics.
Table of Contents
| Preface | p. xi |
| Quantum Gravity - A Short Overview | p. 1 |
| Why do we need quantum gravity? | p. 1 |
| Quantum general relativity | p. 5 |
| Covariant approaches | p. 5 |
| Canonical approaches | p. 5 |
| Quantum geometrodynamics | p. 6 |
| Connection and loop variables | p. 7 |
| String theory | p. 8 |
| Loops versus strings - a few points | p. 9 |
| Quantum cosmology | p. 10 |
| Some central questions about quantum gravity | p. 11 |
| References | p. 12 |
| The Search for Quantum Gravity | p. 15 |
| Introduction | p. 15 |
| The basic principles of standard physics | p. 16 |
| Experimental tests | p. 17 |
| Tests of the universality of free fall | p. 17 |
| Tests of the universality of the gravitational redshift | p. 18 |
| Tests of local Lorentz invariance | p. 19 |
| Constancy of c | p. 20 |
| Universality of c | p. 21 |
| Isotropy of c | p. 21 |
| Independence of c from the velocity of the laboratory | p. 21 |
| Time dilation | p. 21 |
| Isotropy in the matter sector | p. 22 |
| Implications for the equations of motion | p. 22 |
| Implication for point particles and light rays | p. 22 |
| Implication for spin- [fraction12] particles | p. 23 |
| Implications for the Maxwell field | p. 23 |
| Summary | p. 24 |
| Implications for the gravitational field | p. 24 |
| Tests of predictions - determination of PPN parameters | p. 25 |
| Solar system effects | p. 25 |
| Strong gravity and gravitational waves | p. 27 |
| Unsolved problems: first hints for new physics? | p. 27 |
| On the magnitude of quantum gravity effects | p. 29 |
| How to search for quantum gravity effects | p. 30 |
| Outlook | p. 31 |
| Acknowledgements | p. 32 |
| References | p. 32 |
| Time Paradox in Quantum Gravity | p. 41 |
| Introduction | p. 41 |
| Time in canonical quantization | p. 43 |
| Time in general relativity | p. 45 |
| Canonical quantization in minisuperspace | p. 49 |
| Canonical quantization in midisuperspace | p. 51 |
| The problem of time | p. 52 |
| Conclusions | p. 56 |
| Acknowledgements | p. 57 |
| References | p. 57 |
| Differential Geometry in Non-Commutative Worlds | p. 61 |
| Introduction to non-commutative worlds | p. 61 |
| Differential geometry and gauge theory in a non-commutative world | p. 66 |
| Consequences of the metric | p. 69 |
| Acknowledgements | p. 74 |
| References | p. 74 |
| Algebraic Approach to Quantum Gravity III: Non-Commutative Riemannian Geometry | p. 77 |
| Introduction | p. 77 |
| Reprise of quantum differential calculus | p. 79 |
| Symplectic connections: a new field in physics | p. 81 |
| Differential anomalies and the orgin of time | p. 82 |
| Classical weak Riemannian geometry | p. 85 |
| Cotorsion and weak metric compatibility | p. 86 |
| Framings and coframings | p. 87 |
| Quantum bundles and Riemannian structures | p. 89 |
| Quantum gravity on finite sets | p. 94 |
| Outlook: Monoidal functors | p. 97 |
| References | p. 98 |
| Quantum Gravity as a Quantum Field Theory of Simplicial Geometry | p. 101 |
| Introduction: Ingredients and motivations for the group field theory | p. 101 |
| Why path integrals? The continuum sum-over-histories approach | p. 102 |
| Why topology change? Continuum 3rd quantization of gravity | p. 103 |
| Why going discrete? Matrix models and simplicial quantum gravity | p. 105 |
| Why groups and representations? Loop quantum gravity/spin foams | p. 107 |
| Group field theory: What is it? The basic GFT formalism | p. 109 |
| A discrete superspace | p. 109 |
| The field and its symmetries | p. 111 |
| The space of states or a third quantized simplicial space | p. 112 |
| Quantum histories or a third quantized simplicial spacetime | p. 112 |
| The third quantized simplicial gravity action | p. 113 |
| The partition function and its perturbative expansion | p. 114 |
| GFT definition of the canonical inner product | p. 115 |
| Summary: GFT as a general framework for quantum gravity | p. 116 |
| An example: 3d Riemannian quantum gravity | p. 117 |
| Assorted questions for the present, but especially for the future | p. 120 |
| Acknowledgements | p. 124 |
| References | p. 125 |
| An Essay on the Spectral Action and its Relation to Quantum Gravity | p. 127 |
| Introduction | p. 127 |
| Classical spectral triples | p. 130 |
| On the meaning of noncommutativity | p. 134 |
| NC description of the standard model: the physical intuition behind it | p. 136 |
| The intuitive idea: an picture of quantum spacetime at low energies | p. 136 |
| The postulates | p. 138 |
| How such a noncommutative spacetime would appear to us | p. 139 |
| Remarks and open questions | p. 140 |
| Remarks | p. 140 |
| Open problems, perspectives, more speculations | p. 141 |
| Comparision: intuitive picture/other approaches to Quantum Gravity | p. 143 |
| Towards a quantum equivalence principle | p. 145 |
| Globally hyperbolic spectral triples | p. 145 |
| Generally covariant quantum theories over spectral geometries | p. 147 |
| References | p. 149 |
| Towards a Background Independent Formulation of Perturbative Quantum Gravity | p. 151 |
| Problems of perturbative Quantum Gravity | p. 151 |
| Locally covariant quantum field theory | p. 152 |
| Locally covariant fields | p. 155 |
| Quantization of the background | p. 158 |
| References | p. 158 |
| Mapping-Class Groups of 3-Manifolds | p. 161 |
| Some facts about Hamiltonian general relativity | p. 161 |
| Introduction | p. 161 |
| Topologically closed Cauchy surfaces | p. 163 |
| Topologically open Cauchy surfaces | p. 166 |
| 3-Manifolds | p. 169 |
| Mapping class groups | p. 172 |
| A small digression on spinoriality | p. 174 |
| General Diffeomorphisms | p. 175 |
| A simple yet non-trivial example | p. 183 |
| The RP[superscript 3] geon | p. 183 |
| The connected sum RP[superscript 3 Characters not reproducible] RP[superscript 3] | p. 185 |
| Further remarks on the general structure of G[subscript F]([Sigma]) | p. 190 |
| Summary and outlook | p. 192 |
| Elements of residual finiteness | p. 193 |
| References | p. 197 |
| Kinematical Uniqueness of Loop Quantum Gravity | p. 203 |
| Introduction | p. 203 |
| Ashtekar variables | p. 204 |
| Loop variables | p. 205 |
| Parallel transports | p. 205 |
| Fluxes | p. 205 |
| Configuration space | p. 206 |
| Semianalytic structures | p. 206 |
| Cylindrical functions | p. 207 |
| Generalized connections | p. 207 |
| Projective limit | p. 207 |
| Ashtekar-Lewandowski measure | p. 208 |
| Gauge transforms and diffeomorphisms | p. 208 |
| Poisson brackets | p. 208 |
| Weyl operators | p. 209 |
| Flux derivations | p. 209 |
| Higher codimensions | p. 209 |
| Holonomy-flux *-algebra | p. 210 |
| Definition | p. 210 |
| Symmetric state | p. 210 |
| Uniqueness proof | p. 211 |
| Weyl algebra | p. 212 |
| Definition | p. 212 |
| Irreducibility | p. 213 |
| Diffeomorphism invariant representation | p. 213 |
| Uniqueness proof | p. 213 |
| Conclusions | p. 215 |
| Theorem - self-adjoint case | p. 215 |
| Theorem - unitary case | p. 215 |
| Comparison | p. 216 |
| Discussion | p. 216 |
| Acknowledgements | p. 217 |
| References | p. 218 |
| Topological Quantum Field Theory as Topological Quantum Gravity | p. 221 |
| Introduction | p. 221 |
| Quantum Observables | p. 223 |
| Link Invariants | p. 224 |
| WRT invariants | p. 226 |
| Chern-Simons and String Theory | p. 227 |
| Conifold Transition | p. 228 |
| WRT invariants and topological string amplitudes | p. 229 |
| Strings and gravity | p. 232 |
| Conclusion | p. 233 |
| Acknowledgements | p. 234 |
| References | p. 234 |
| Strings, Higher Curvature Corrections, and Black Holes | p. 237 |
| Introduction | p. 237 |
| The black hole attractor mechanism | p. 240 |
| Beyond the area law | p. 244 |
| From black holes to topological strings | p. 247 |
| Variational principles for black holes | p. 250 |
| Fundamental strings and 'small' black holes | p. 253 |
| Dyonic strings and 'large' black holes | p. 256 |
| Discussion | p. 258 |
| Acknowledgements | p. 259 |
| References | p. 260 |
| The Principle of the Fermionic Projector: An Approach for Quantum Gravity? | p. 263 |
| A variational principle in discrete space-time | p. 264 |
| Discussion of the underlying physical principles | p. 266 |
| Naive correspondence to a continuum theory | p. 268 |
| The continuum limit | p. 270 |
| Obtained results | p. 271 |
| Outlook: The classical gravitational field | p. 272 |
| Outlook: The held quantization | p. 274 |
| References | p. 280 |
| Gravitational Waves and Energy Momentum Quanta | p. 283 |
| Introduction | p. 283 |
| Conserved quantities and electromagnetism | p. 285 |
| Conserved quantities and gravitation | p. 286 |
| The Bel-Robinson tensor | p. 287 |
| Wave solutions | p. 289 |
| Conclusions | p. 292 |
| References | p. 292 |
| Asymptotic Safety in Quantum Einstein Gravity; Nonperturbative Renormalizability and Fractal Spacetime Structure | p. 293 |
| Introduction | p. 293 |
| Asymptotic safety | p. 294 |
| RG flow of the effective average action | p. 296 |
| Scale dependent metrics and the resolution function l(k) | p. 300 |
| Microscopic structure of the QEG spacetimes | p. 304 |
| The spectral dimension | p. 307 |
| Summary | p. 310 |
| References | p. 311 |
| Noncommutative QFT and Renormalization | p. 315 |
| Introduction | p. 315 |
| Noncommutative Quantum Field Theory | p. 316 |
| Renormalization of [Phi superscript 4] -theory on the 4D Moyal plane | p. 318 |
| Matrix-model techniques | p. 323 |
| References | p. 324 |
| Index | p. 327 |
| Table of Contents provided by Ingram. All Rights Reserved. |
An electronic version of this book is available through VitalSource.
This book is viewable on PC, Mac, iPhone, iPad, iPod Touch, and most smartphones.
By purchasing, you will be able to view this book online, as well as download it, for the chosen number of days.
Digital License
You are licensing a digital product for a set duration. Durations are set forth in the product description, with "Lifetime" typically meaning five (5) years of online access and permanent download to a supported device. All licenses are non-transferable.
More details can be found here.
A downloadable version of this book is available through the eCampus Reader or compatible Adobe readers.
Applications are available on iOS, Android, PC, Mac, and Windows Mobile platforms.
Please view the compatibility matrix prior to purchase.