The Future of Theoretical Physics and Cosmology

All titles

Celebrating Stephen Hawking's Contributions to Physics

Author:

G. W. Gibbons, University of Cambridge
E. P. S. Shellard, University of Cambridge
S. J. Rankin, University of Cambridge

Published:

September 2009

Availability:

Available

Format:

Paperback

ISBN:

9780521144087

$57.99

USD

Paperback

$142.00 USD

Hardback

Description

Based on lectures given in honor of Stephen Hawking's 60th birthday, this book comprises contributions from the world's leading theoretical physicists. Popular lectures progress to a critical evaluation of more advanced subjects in modern cosmology and theoretical physics. Topics covered include the origin of the universe, warped spacetime, cosmological singularities, quantum gravity, black holes, string theory, quantum cosmology and inflation. The volume provides a fascinating overview of the variety of subjects to which Stephen Hawking has contributed.

Contains contributions from top researchers in cosmology and theoretical physics
An important assessment of fundamental physics and cosmology for researchers and interested readers
Provides a complete overview of the wide variety of fields in which Stephen Hawking has been influential

Reviews & endorsements

"Highly recommended."
Choice

"Experts will be able to go as deep as they like, but even those with only a 'popular science' interest in recent developments in particle physics, astrophysics, and cosmology will find much to interest them."
SIAM News

"As readable as a very hard book on theoretical physics would be."
New Scientist

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Product details

Published: September 2009
Format: Paperback
ISBN: 9780521144087
Length: 906 pages
Dimensions: 247 × 174 × 42 mm
Weight: 1.76kg
Availability: Available

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Contents

Preface
List of contributors
1. Introduction
Part I. Popular Symposium:
2. Our complex cosmos and its future Martin J. Rees
3. Theories of everything and Hawking's wave function of the Universe James B. Hartle
4. The problem of space-time singularities: implications for quantum gravity? Roger Penrose
5. Warping spacetime Kip Thorne
6. 60 years in a nutshell Stephen W. Hawking
Part II. Spacetime Singularities:
7. Cosmological perturbations and singularities George F. R. Ellis
8. The quantum physics of chronology protection Matt Visser
9. Energy dominance and the Hawking–Ellis vacuum conservation theorem Brandon Carter
10. On the instability of extra space dimensions Roger Penrose
Part III. Black Holes:
11. Black hole uniqueness and the inner horizon stability problem Werner Israel
12. Black holes in the real universe and their prospects as probes of relativistic gravity Martin J. Rees
13. Primordial black holes Bernard Carr
14. Black hole pair creation Simon F. Ross
15. Black holes as accelerators Steven Giddings
Part IV. Hawking Radiation:
16. Black holes and string theory Malcolm Perry
17. M theory and black hole quantum mechanics Joe Polchinski
18. Playing with black strings Gary Horowitz
19. Twenty years of debate with Stephen Leonard Susskind
Part V. Quantum Gravity:
20. Euclidean quantum gravity: the view from 2002 Gary Gibbons
21. Zeta functions, anomalies and stable branes Ian Moss
22. Some reflections on the status of conventional quantum theory when applied to quantum gravity Chris Isham
23. Quantum geometry and its ramifications Abhay Ashtekar
24. Topology change in quantum gravity Fay Dowker
Part VI. M Theory and Beyond:
25. The past and future of string theory Edward Witten
26. String theory David Gross
27. A brief description of string theory Michael Green
28. The story of M Paul Townsend
29. Gauged supergravity and holographic field theory Nick Warner
30. 57 varieties in a NUTshell Chris Pope
Part VII. de Sitter Space:
31. Adventures in de Sitter space Raphael Bousso
32. de Sitter space in non-critical string theory Andrew Strominger
33. Supergravity, M theory and cosmology Renata Kallosh
Part VIII. Quantum Cosmology:
34. The state of the universe James B. Hartle
35. Quantum cosmology Don Page
36. Quantum cosmology and eternal inflation A. Vilenkin
37. Probability in the deterministic theory known as quantum mechanics Bryce de Witt
38. The interpretation of quantum cosmology and the problem of time J. Halliwell
39. What local supersymmetry can do for quantum cosmology Peter D'Eath
Part IX. Cosmology:
40. Inflation and cosmological perturbations Alan Guth
41. The future of cosmology: observational and computational prospects Paul Shellard
42. The ekpyrotic universe and its cyclic extension Neil Turok
43. Inflationary theory versus the ekpyrotic/cyclic scenario Andrei Linde
44. Brane (new) worlds Pierre Binetruy
45. Publications of Stephen Hawking
Index.

Courses

Resources

Additional Information

About the authors

Contributors

Martin J. Rees, James B. Hartle, Roger Penrose, Kip Thorne, Stephen W. Hawking, George F. R. Ellis, Matt Visser, Brandon Carter, Werner Israel, Bernard Carr, Simon F. Ross, Steven Giddings, Malcolm Perry, Joe Polchinski, Gary Horowitz, Leonard Susskind, Gary Gibbons, Ian Moss, Chris Isham, Abhay Ashtekar, Fay Dowker, Edward Witten, David Gross, Michael Green, Paul Townsend, Nick Warner, Chris Pope, Raphael Bousso, Andrew Strominger, Renata Kallosh, Don Page, A. Vilenkin, Bryce de Witt, J. Halliwell, Peter D'Eath, Alan Guth, Paul Shellard, Neil Turok, Andrei Linde, Pierre Binetruy

Editors

G. W. Gibbons , University of Cambridge
E. P. S. Shellard , University of Cambridge
S. J. Rankin , University of Cambridge

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