V.A. Fock - Selected Works
eBook - ePub

V.A. Fock - Selected Works

Quantum Mechanics and Quantum Field Theory

  1. 584 pages
  2. English
  3. ePUB (mobile friendly)
  4. Available on iOS & Android
eBook - ePub

V.A. Fock - Selected Works

Quantum Mechanics and Quantum Field Theory

Book details
Table of contents
Citations

About This Book

In the period between the birth of quantum mechanics and the late 1950s, V.A. Fock wrote papers that are now deemed classics. In his works on theoretical physics, Fock not only skillfully applied advanced analytical and algebraic methods, but also systematically created new mathematical tools when existing approaches proved insufficient.

This co

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Yes, you can access V.A. Fock - Selected Works by L.D. Faddeev, L.A. Khalfin, I.V. Komarov in PDF and/or ePUB format, as well as other popular books in Physical Sciences & Mathematical & Computational Physics. We have over one million books available in our catalogue for you to explore.

Information

Publisher
CRC Press
Year
2004
ISBN
9781134421992
Edition
1
Topic
Physical Sciences
Subtopic
Mathematical & Computational Physics

Table of contents

  1. Cover Page
  2. Title Page
  3. Copyright Page
  4. Preface
  5. The Following Abbreviations Are Used for the Titles of Russian Editions
  6. 23-1. On Rayleigh’s Pendulum
  7. 26-1. On Schrödinger’s Wave Mechanics
  8. 26-2. On the Invariant form of the Wave Equation and of the Equations of Motion for a Charged Massive Point
  9. 28-1. A Comment On Quantization of the Harmonic Oscillator In a Magnetic Field
  10. 28-2. On the Relation Between the Integrals of the Quantum Mechanical Equations of Motion and the Schrödinger Wave Equation
  11. 28-3*: Generalization and Solution of the Dirac Statistical Equation
  12. 28-4. Proof of the Adiabatic Theorem
  13. 29-1. On “Improper” Functions In Quantum Mechanics
  14. 29-2. On the Notion of Velocity In the Dirac Theory of the Electron
  15. 29-3. On the Dirac Equations In General Relativity
  16. 29-4. Dirac Wave Equation and Riemann Geometry
  17. 30-1. A Comment On the Virial Relation
  18. 30-2. An Approximate Method for Solving the Quantum Many-Body Problem
  19. 30-3. Application of the Generalized Hartree Method to the Sodium Atom
  20. 30-4. New Uncertainty Properties of the Electromagnetic Field
  21. 30-5: The Mechanics of Photons
  22. 32-1. A Comment On the Virial Relation In Classical Mechanics
  23. 32-2*. Configuration Space and Second Quantization
  24. 32-3*. On Dirac’s Quantum Electrodynamics
  25. 32-4*. On Quantization of Electro-Magnetic Waves and Interaction of Charges In Dirac Theory
  26. 32-5*. On Quantum Electrodynamics
  27. 33-1*. On the Theory of Positrons
  28. 33-2. On Quantum Exchange Energy
  29. 34-1. On the Numerical Solution of Generalized Equations of the Self-Consistent Field
  30. 34-2. An Approximate Representation of the Wave Functions of Penetrating Orbits
  31. 34-3*. On Quantum Electrodynamics
  32. 35-1. Hydrogen Atom and Non-Euclidean Geometry
  33. 35-2. Extremal Problems In Quantum Theory
  34. 36-1. The Fundamental Significance of Approximate Methods In Theoretical Physics
  35. 37-1*. The Method of Functionals In Quantum Electrodynamics
  36. 37-2*. Proper Time In Classical and Quantum Mechanics
  37. 40-1. Incomplete Separation of Variables for Divalent Atoms
  38. 40-2. On the Wave Functions of Many-Electron Systems
  39. 43-1. On the Representation of an Arbitrary Function By an Integral Involving Legendre’s Function With a Complex Index
  40. 47-1. On the Uncertainty Relation Between Time and Energy
  41. 50-1. Application of Two-Electron Functions In the Theory of Chemical Bonds
  42. 54-1. On the Schrödinger Equation of the Helium Atom
  43. 57-1. On the Interpretation of Quantum Mechanics
  44. 59-1. On the Canonical Transformation In Classical and Quantum Mechanics