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Quantum Paradoxes and Physical Reality / by Franco Selleri ; edited by Alwyn Merwe.

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Although the debate about the true nature of the quantum behavior of atomic systems has never ceased, there are two periods during which it has been particularly intense: the years that saw the founding of quantum mechanics and, increasingly, these modern times. In 1954 Max Born, on accepting the No...

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Bibliographic Details
Online Access: Full Text (via Springer)
Main Author: Selleri, Franco
Other Authors: Merwe, Alwyn
Format: eBook
Language:English
Published: Dordrecht : Springer Netherlands, 1990.
Series:Fundamental theories of physics ; v. 35.
Subjects:
Physics.
Quantum theory.
Nuclear physics.
Table of Contents:
  • 1 / Quantum Theorists and the Physical World
  • 1.1. Three Central Questions about Physics
  • 1.2. The Older Generation
  • 1.3. The Middle Generation
  • 1.4. The Younger Generation
  • 1.5. Conclusions
  • 2 / Is Quantum Mechanics a Complete Theory?
  • 2.1. The Problem of Completeness and of Hidden Variables
  • 2.2. De Broglie's Paradox
  • 2.3. The Spin-1/2 System in Quantum Mechanics
  • 2.4. A Simple Proof of von Neumann's Theorem
  • 2.5. The Theorem is not General Enough
  • 2.6. Von Neumann's Theorem: Assumptions, Definitions, and Results
  • 2.7. General Proof of von Neumann's Theorem
  • 2.8. Jauch and Piron's Theorem
  • 2.9. The Debate on Impossibility Proofs
  • 3 / The Wave-Particle Duality
  • 3.1. Duality for Photons
  • 3.2. Duality for Neutrons
  • 3.3. Einstein's Discovery of Duality
  • 3.4. De Broglie's Duality
  • 3.5. Schrödinger's Waves
  • 3.6. Bohr's Complementarity
  • 3.7. Fock's Relativity with Respect to the Means of Observation
  • 3.8. Heisenberg Beyond Complementarity
  • 3.9. The Consciousness Interpretation
  • 3.10. Delayed Choices
  • 3.11. How to do what Complementarity Forbids
  • 4 / Properties of Quantum Waves
  • 4.1. Quantum Waves and Quantum Potential
  • 4.2. Experiments on the Nature of Duality
  • 4.3. Stimulated Emission
  • 4.4. Quantitative Empty Wave Amplification
  • 4.5. Two Further Experimental Proposals
  • 4.6. Triple-Slit Experiments
  • 4.7. The Bohm-Aharonov Effect
  • 4.8. Further Ideas about Wave-Particle Duality
  • 5 / The Einstein-Podolsky-Rosen Paradox
  • 5.1. The Original Formulation
  • 5.2. Bohr's Answer
  • 5.3. Two Types of State Vectors
  • 5.4. Spin States for Two Particles
  • 5.5. Reality and Separability
  • 5.6. The EPR Paradox: Quantum Mechanics Complete
  • 5.7. The EPR Paradox: Quantum Mechanics not Complete
  • 5.8. From Theory to Practice
  • 5.9. The Experimental Information
  • 5.10. Solution 1: Modifying the Past
  • 5.11. Solution 2: Superluminal Connections
  • 5.12. Solution 3: New Definitions of Probability
  • 5.13. Solution 4: Modifications of Quantum Theory
  • 6 / The EPR Paradox in the Real World
  • 6.1. Criticisms of Einstein Locality
  • 6.2. Probabilistic Einstein Locality
  • 6.3. New Proof of Bell's Inequality
  • 6.4. Probabilities for Pairs of Correlated Systems
  • 6.5. A New Factorizability Condition
  • 6.6. All the Inequalities of Einstein Locality
  • 6.7. Tests of the EPR Paradox in Particle Physics
  • 6.8. On the Possibility of New Experiments
  • 6.9. Variable Probabilities
  • 7 / Perspectives of Physical Realism
  • 7.1. Objectivity of Scientific Knowledge
  • 7.2. Mathematics and Reality
  • 7.3. The Role of History of Physics
  • 7.4. Fragmentation of Modern Physics
  • 7.5. Niels Bohr and Philosophy
  • 7.6. Quantum Physics and Biological Sciences
  • 7.7. Forms of Physical Realism.

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