The logic of quantum mechanics

Originally published in 1981, this book forms volume 15 of the Encyclopedia of Mathematics and its Applications. The text provides a clear and thorough treatment of its subject, adhering to a clean exposition of the mathematical content of serious formulations of rational physical alternatives of quantum theory as elaborated in the influential works of the period, to which the authors made a significant contribution. The treatment falls into three distinct, logical parts: in the first part, the modern version of accumulated wisdom is presented, avoiding as far as possible the traditional language of classical physics for its interpretational character; in the second part, the individual structural elements for the logical content of the theory are laid out; in part three, the results of section two are used to reconstruct the usual Hilbert space formulation of quantum mechanics in a novel way.

• Editor's statement
• Foreword
• Preface
• Part I. Hilbert-Space Quantum Mechanics
• 1. Static description of quantum mechanics
• 2. States
• 3. Physical quantities
• 4. Spin and motion
• 5. Superselection rules
• 6. Dynamical evolution
• 7. Compound systems
• 8. Elementary analysis of the measurement process
• 9. Mathematical structures emerging from the Hilbert-Space formulation of Quantum mechanics
• Part II. Basic Structures in the Description of Quantum Mechanics
• 10. The typical mathematical structure of propositions: orthomodular AC lattices
• 11. Probability measures on orthomodular posets and lattices
• 12. Characterization of commutativity
• 13. States and propositions of a physical system
• 14. Quantum-mechanical features in terms of the logic of the physical system
• 15. On the hidden-variable issue
• 16. Proposition-state structure and idealized measurements
• 17. Superpositions of states and closure spaces
• 18. Transition-probability spaces and quantum systems
• 19. On the convex-set approach
• 20. Introduction to a quantum logic
• Part III. Reconstruction of Hilbert-Space Quantum Mechanics
• 21. The coordinatization problem
• 22. Use of real and quaternionic Hibert Spaces: a simple example
• 23. Dynamics
• 24. Composition of physical systems
• 25. Hidden-variable theories and Gleason's Theorem
• 26. Introduction to quantum probability theory
• Appendices
• Subject index.