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The Gravitational Field at Spatial Infinity

  • Matthew Alexander and Peter G. Bergmann
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Between Quantum and Cosmos
This chapter is in the book Between Quantum and Cosmos
© 2017 Princeton University Press, Princeton

© 2017 Princeton University Press, Princeton

Chapters in this book

  1. Frontmatter i
  2. Contents vii
  3. Preface xi
  4. John Archibald Wheeler: A Few Highlights of His Contributions to Physics 1
  5. Early Estimates of the Strength of the Nuclear Spin-Orbit Force 15
  6. Momentum Projection of Solitons Including Quantum Corrections 26
  7. An S Matrix Theory for Classical Nonlinear Physics 42
  8. Some Generalizations of the Virial Theorem 60
  9. Does the Topology of Space Fluctuate? 74
  10. Barrier Penetration and Initial Values in Kaluza-Klein Theories 90
  11. Obvious, Incredible ... 104
  12. Professor Wheeler and the Crack of Doom: Closed Cosmologies in the 5-d Kaluza-Klein Theory 122
  13. Gravitation and Spontaneous Symmetry Breaking 145
  14. The Birth of Time 159
  15. Black Holes and Quantum Coherence 167
  16. Heuristic Viewpoint Concerning the Thermal Ambience Relative to an Accelerated Frame 176
  17. Test of the Gravitomagnetic Field via Laser-Ranged Satellites 188
  18. Static Electromagnetic Geon 196
  19. The Geometrodynamic Content of the Regge Equations as Illuminated by the Boundary of a Boundary Principle 201
  20. Canonical Geometrodynamics and General Covariance 229
  21. Boundary Terms in the Action Principles of General Relativity 246
  22. Bianchi Identities and the Automatic Conservation of Energy-Momentum and Angular Momentum in General-Relativistic Field Theories 256
  23. The Boundary of a Boundary Principle: A Unified Approach 284
  24. The Gravitational Field at Spatial Infinity 300
  25. Gravitational Radiation Reaction on the Motion of Particles in General Relativity 311
  26. Equivalent Lagrangians in Classical Field Theory 322
  27. p-Form Electrodynamics 340
  28. General Covariance and Quantum Theory 366
  29. Steering the Universe 384
  30. On Observing the Absence of an Atom 400
  31. How to Evade the Confrontation with the Uncertainty Relations 408
  32. Are the Quantum Rules Exact? The Case of the Imperfect Measurements 413
  33. The Problems in Quantum Foundations in the Light of Gauge Theories 424
  34. Joint Wigner Distribution for Spin-1/2 Particles 442
  35. Wedges I 459
  36. The Measurement of Quantum Noise Reduction in Squeezed States 499
  37. Quantum Mechanics without Probability Amplitudes 507
  38. Quantum Mechanical Computers 523
  39. Computability and Physical Theories 549
  40. Computation and Physics: Wheeler’s Meaning Circuit? 568
  41. On Wheeler's Notion of “Law without Law” in Physics 583
  42. Existence of “Free Will” as a Problem of Physics 592
  43. On the Nature and Origin of Complexity in Discrete, Homogeneous, Locally-Interacting Systems 605
  44. Descriptions of Plates 614
https://doi.org/10.1515/9781400886975-022

Chapters in this book

  1. Frontmatter i
  2. Contents vii
  3. Preface xi
  4. John Archibald Wheeler: A Few Highlights of His Contributions to Physics 1
  5. Early Estimates of the Strength of the Nuclear Spin-Orbit Force 15
  6. Momentum Projection of Solitons Including Quantum Corrections 26
  7. An S Matrix Theory for Classical Nonlinear Physics 42
  8. Some Generalizations of the Virial Theorem 60
  9. Does the Topology of Space Fluctuate? 74
  10. Barrier Penetration and Initial Values in Kaluza-Klein Theories 90
  11. Obvious, Incredible ... 104
  12. Professor Wheeler and the Crack of Doom: Closed Cosmologies in the 5-d Kaluza-Klein Theory 122
  13. Gravitation and Spontaneous Symmetry Breaking 145
  14. The Birth of Time 159
  15. Black Holes and Quantum Coherence 167
  16. Heuristic Viewpoint Concerning the Thermal Ambience Relative to an Accelerated Frame 176
  17. Test of the Gravitomagnetic Field via Laser-Ranged Satellites 188
  18. Static Electromagnetic Geon 196
  19. The Geometrodynamic Content of the Regge Equations as Illuminated by the Boundary of a Boundary Principle 201
  20. Canonical Geometrodynamics and General Covariance 229
  21. Boundary Terms in the Action Principles of General Relativity 246
  22. Bianchi Identities and the Automatic Conservation of Energy-Momentum and Angular Momentum in General-Relativistic Field Theories 256
  23. The Boundary of a Boundary Principle: A Unified Approach 284
  24. The Gravitational Field at Spatial Infinity 300
  25. Gravitational Radiation Reaction on the Motion of Particles in General Relativity 311
  26. Equivalent Lagrangians in Classical Field Theory 322
  27. p-Form Electrodynamics 340
  28. General Covariance and Quantum Theory 366
  29. Steering the Universe 384
  30. On Observing the Absence of an Atom 400
  31. How to Evade the Confrontation with the Uncertainty Relations 408
  32. Are the Quantum Rules Exact? The Case of the Imperfect Measurements 413
  33. The Problems in Quantum Foundations in the Light of Gauge Theories 424
  34. Joint Wigner Distribution for Spin-1/2 Particles 442
  35. Wedges I 459
  36. The Measurement of Quantum Noise Reduction in Squeezed States 499
  37. Quantum Mechanics without Probability Amplitudes 507
  38. Quantum Mechanical Computers 523
  39. Computability and Physical Theories 549
  40. Computation and Physics: Wheeler’s Meaning Circuit? 568
  41. On Wheeler's Notion of “Law without Law” in Physics 583
  42. Existence of “Free Will” as a Problem of Physics 592
  43. On the Nature and Origin of Complexity in Discrete, Homogeneous, Locally-Interacting Systems 605
  44. Descriptions of Plates 614
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