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Gravity, Gauge Theories and Quantum Cosmology PDF

476 Pages·1986·8.003 MB·English
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Gravity, Gauge Theories and Quantum Cosmology Fundamental Theories of Physics A New International Book Series on the Fundamental Theories of Physics: Their Clarification, Development and Application Editor: ALWYN VAN DER MERWE University of Denver, U.S.A. Editorial Advisory Board: ASIM BARUT, University of Colorado, U.S.A. HERMANN BONDI, Natural Environment Research Council, U.K. BRIAN D. JOSEPHSON, University of Cambridge, U.K. CLIVE KILMISTER, University of London, U. K. GUNTER LUDWIG, Philipps-Universitiit, Marburg, F.R.G. NATHAN ROSEN, Israel Institute of Technology, Israel MENDEL SACHS, State University of New York at Buffalo, U.S.A. ABDUS SALAM, International Centre for Theoretical Physics, Trieste, Italy HANS-JURGEN TREDER, Zentralinstitut far Astrophysik der Akademie der Wissenschaften, G.D.R. Gravity, Gauge Theories and Quantum Cosmology by v. Jayant NarIikar and T. Padmanabhan Tata Institute of Fundamental Research, Bombay, India D. Reidel Publishing Company A MEMBER OF THE KLUWER ACADEMIC PUBLISHERS GROUP Dordrecht I Boston I Lancaster I Tokyo Library of Congress Cataloging-in-Publication Data Narlikar, Jayant Vishnu, 1938- Gravity, gauge theories, and quantum cosmology. (Fundamental theories of physics) Includes bibliographies and index. 1. Quantum gravity. 2. Cosmology. 3. Gauge fields (Physics) 4. Quantum field theory. 5. General relativity (Physics) I. Padmanabhan, T. (Thanu), 1957- II. Title. III. Series. QC178.N26 1986 530.1 86-3282 ISBN-13: 978-94-010-8508-3 e-ISBN-13: 978-94-009-4508-1 001: 10.1007/978-94-009-4508-1 Published by D. Reidel Publishing Company, P.O. Box 17, 3300 AA Dordrecht, Holland Sold and distributed in the U.S.A. and Canada by K!J.lwer Academic Publishers, 101 Philip Drive, Assinippi Park, Norwell, MA 02061, U.S.A. In all other countries, sold and distributed by Kluwer Academic Publishers Group, P.O. Box 322,3300 AH Dordrecht, Holland All Rights Reserved Softcover reprint of the hardcover I st edition 1986 © 1986 by D. Reidel Publishing Company, Dordrecht, Holland No part of the material protected by this copyright notice may be reproduced or utilized in any form or by any means, electronic or mechanical including photocopying, recording or by any information storage and retrieval system, without written permission from the copyright owner Table of Contents Preface Xl Notation xiii Chapter 1 / Introduction 1 1.1. Historical Background 1 1.2. What This Book is About 4 PART I QUANTUM THEORY Chapter 2 / Path Integrals 11 2.1. Action in Classical Physics 11 2.2.· Action in Quantum Physics 13 2.3. The Path Integral 17 2.4. The Quadratic Action 21 2.5. The Schrodinger Equation 24 2.6. The Spreading of Wave Packets 27 2.7. The Harmonic Oscillator 29 Notes and References 37 Chapter 3 / En Route to Quantum Field Theory 38 3.1. The Field as a Dynamical System 38 .3.2. Harmonic Oscillator in an External Potential 39 3.3. The Vacuum Persistence Amplitude 42 3.4. Euclidean Time 46 3.5. The Double-Hump Potential 50 3.6. The Instanton Solutions 54 3.7. The Concept of an Effective Action 57 3.8. Quantum Mechanics at Finite Temperature 61 Notes and References 63 v Table of Contents VI Chapter 4 / Quantum Field Theory 64 4.1. Classical Field Theory (General) 64 4.2. Classical Field Theory (Specific Fields) 69 4.3. Quantization of the Scalar Field 76 4.4. Canonical Quantization 80 4.5. Scalar Field with Quartic Self-interaction 88 4.6. Nonperturbative Methods 93 4.7. Quantum Theory in External Fields 99 4.8. Field Theory at Finite Temperature 104 Notes and References 106 Chapter 5 / Gauge Fields 107 5.1. Gauge Invariance - Electromagnetism 107 5.2. Gauge Invariance - Generalized 109 5.3. General Formalism for Gauge Theory 113 5.4. Spontaneous Symmetry Breaking 117 5.5. SSB with an Abelian Gauge Field 121 5.6. SSB with a Nonabelian Gauge Field 123 5.7. The Salam-Weinberg Model 126 5.8. The Coleman-Weinberg Mechanism 131 5.9. The Gauge Field as a Physical System 133 5.10. The Gauge Field Vacuum and Instantons 136 5.11. Solitons - Monopole Solution 142 Notes and References 148 PART II CLASSICAL GENERAL RELATIVITY Chapter 6 / General Theory of Relativity 151 6.1. The Need for a General Theory of Relativity 151 6.2. Curved Spacetime 155 6.3. Vectors and Tensors 159 6.4. Metric and Geodesics 162 6.5. Parallel Transport 167 6.6. The Curvature Tensor 172 6.7. Physics in Curved Spacetime 177 6.8. Einstein's Field Equations 184 6.9. The Newtonian Approximation 190 6.10. TheA Term 192 6.11 Conformal Transformations 193 Notes and References 194 Chapter 7 / Gravitating Massive Objects 195 7.1. The Schwarzschild Solution 195 Table of Contents Vll 7.2. Experimental Tests of General Relativity 199 7.3. Gravitational Radiation 209 7.4. Geometrodynamics 212 7.5. Gravitational Collapse 215 7.6. Black Holes 223 Notes and References 233 Chapter 8 / Relativistic Cosmology 234 8.1. Cosmological Symmetries 234 8.2. The Friedmann Models 238 8.3. Observational Cosmology 245 8.4. The Early Universe 254 8.5. The Problems of Singularity, Horizon, and Flatness 264 8.6. Anisotropic Cosmologies 268 Notes and References 272 PART III QUANTIZATION IN CURVED SPACETIME Chapter 9 / Quantum Theory in Curved Spacetime 275 9.1. Quantum Theory in a Curved Background: Why? 275 9.2. General Covariance and the Particle Concept 279 9.3. Field Theory in Robertson-Walker Spacetime 286 9.4. Field Theory in de Sitter Spacetime 293 9.5. Euclideanization and the Thermal Green's Functions 299 9.6. Field Theory in the Black-Hole Spacetime 301 Notes and References 308 Chapter 10/ The Very Early Universe 310 10.1. Symmetry Breaking in the Early Universe 310 10.2. Cosmological Monopoles 314 10.3. Cosmological Inflationary Scenarios 316 10.4. The Guth Inflation 318 10.5. Inflation with the Coleman-Weinberg Potential 322 10.6. Fine-Tunings in the Early Universe 326 Notes and References 328 PART IV QUANTUM COSMOLOGY Chapter 11 / Approaches to Quantum Cosmology 333 11.1. Introduction 333 11.2. The Linearized Theory 334 11.3. Canonical Quantization 337 viii Table of Contents 11.4. Manifestly Covariant Quantization 345 11.5. Path Integrals in Euclidean Spacetime 350 11.6. Concluding Remarks 353 Notes and References 353 Chapter 12 / Quantum Conformal Fluctuations 355 12.1. Quantum Gravity via Path Integrals 355 12.2. Conformal Fluctuations 359 12.3. QCF of Friedmann Cosmologies 364 12.4. Bianchi Type I Cosmologies 371 12.5. Universes with Arbitrary Distributions of Massive Particles 373 12.6. The Problems of Singularity and Horizons 382 12.7. The Problem of Flatness 386 12.8. Further Developments 389 Notes and References 391 Chapter 13 / Towards a More Complete Theory 392 13.1. Towards a More Complete Theory 392 13.2. The Average Metric 392 13.3. Quantum Fluctuations and Proper Length 395 13.4. Lower Bound to Proper Length 399 13.5. Quantum Stationary Geometries 404 13.6. QSG and the Back Reaction on the Metric 409 13.7. Solutions of Quantum Gravity Equations 412 13.8. Cosmo genesis and Vacuum Instability 418 Notes and References 426 Chapter 14 / Epilogue 427 PART V APPENDICES Appendix A / Renormalization 433 Appendix B / Basic Group Theory 441 B.1. Definition of a Group 441 B.2. Generators 443 B.3. Representations 445 Appendix C / Differential Geometry 447 C.1. Basic Concepts 447 C.2. Vectors and I-Forms 449 C.3. Lie Derivative and Covariant Derivative 452 C.4. Curvature and Metric 454 Table of Contents ix Appendix D / Spacetime Symmetries 457 D .1. Displacement of Spacetime 457 D.2. Killing Vectors 459 D.3. Homogeneity 460 D.4. Isotropy 460 Index 463 Preface For several decades since its inception, Einstein's general theory of relativity stood somewhat aloof from the rest of physics. Paradoxically, the attributes which normally boost a physical theory - namely, its perfection as a theoreti cal framework and the extraordinary intellectual achievement underlying it - prevented the general theory from being assimilated in the mainstream of physics. It was as if theoreticians hesitated to tamper with something that is manifestly so beautiful. Happily, two developments in the 1970s have narrowed the gap. In 1974 Stephen Hawking arrived at the remarkable result that black holes radiate after all. And in the second half of the decade, particle physicists discovered that the only scenario for applying their grand unified theories was offered by the very early phase in the history of the Big Bang universe. In both cases, it was necessary to discuss the ideas of quantum field theory in the background of curved spacetime that is basic to general relativity. This is, however, only half the total story. If gravity is to be brought into the general fold of theoretical physics we have to know how to quantize it. To date this has proved a formidable task although most physicists would agree that, as in the case of grand unified theories, quantum gravity will have applications to cosmology, in the very early stages of the Big Bang universe. In fact, the present picture of the Big Bang universe necessarily forces us to think of quantum cosmology. In this book we have highlighted these interdisciplinary problems, ending with a simplified version of quantum gravity that appears to provide useful inputs into the problems of the early universe. In particular, the difficulties associated with the classical models that have recently gained prominence under the heads of 'singularity', 'particle horizon' and 'flatness' are resolved in this picture of the quantum universe. But this is a beginning, not the end of the quest for a general theory of quantum gravity. Indeed, none of the topics discussed in the various parts of this book is free from problems yet to be resolved: thus giving a lie to the belief shared in some circles that the end of physics is almost at hand. Our discussion of classical general relativity and cosmology is self- Xl

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