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Quantum processes /
Space and time are probably the most important elements in physics. Within the memory of man, all essential things are represented within the frame of space-time pictures. This is obviously the most basic information. What can we say about space and time? It is normally assumed that the space is a c...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Singapore ; London :
World Scientific,
2009.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Foreword; 1. Conventional Quantum Theory; 1.1. Classical Description; 1.2. Schrödinger's Equations; 1.2.1. Operator Treatment of Schrödinger's Equation; 1.2.2. Momentum Representation; 1.3. Uncertainty Relations; 1.4. Individuals; Remark; 1.5. Conclusion; 1.6. Aspects; 1.6.1. The Principle of Complementarity; 1.6.2. Objectivity; 1.7. Remarks on the Superposition Principle; 1.8. Basic New Experiments; 1.8.1. General Remarks; 1.8.2. Conclusion; 2. Projection Theory; 2.1. Preliminary Remarks; 2.2. The Projection Principle; 2.2.1. The Elements of Space and Time.
- 2.2.2. Relationship between Matter and Space-Time2.2.3. Two Relevant Features; Feature 1; Feature 2; Remarks concerning feature 1; Remarks concerning feature 2; 2.2.4. Two Kinds of "Objects"; 2.2.5. Perception Processes; 2.2.6. Inside World and Outside World; 2.2.7. The Influence of Evolution; 2.2.8. Information in the Picture versus Information in Basic Reality (Outside Reality); 2.2.9. Other Biological Systems; 2.2.10. Summary; 2.3. Projections; 2.3.1. Principal Remarks; 2.3.2. Mach's Principle; 2.3.3. Conclusion; 2.3.4. Other Spaces; 2.3.4.1. Fourier-space.
- 2.3.4.2. The influence of Planck's constant2.3.4.3. Reality and its picture; 2.3.4.4. Remark; 2.3.5. Basic Properties; 2.3.5.1. Operators; 2.3.5.2. Conclusion; 2.3.6. Basic Transformation Effects; 2.3.6.1. Particles; 2.3.6.2. Role of time t; 2.3.6.3. Non-local effects; 2.3.6.4. Conclusion; Remark; 2.3.7. Operator Equations; 2.3.7.1. Determination of (r, t) and (p, E); 2.3.7.2. Remarks; 2.3.7.3. Space-specific formulation; 2.3.7.4. Discussion concerning equations (2.35) and (2.50); Comparison with Schrödinger's equation; (r, E)-space representation; 2.3.7.5. Other representations.
- 2.3.7.6. Superposition principleThe general case; Stationary systems; Conclusion; 2.3.8. Processes; 2.3.8.1. General remarks; 2.3.8.2. Description of properties and appearances; 2.3.8.3. The meaning of the wave function; 2.3.8.4. Properties of probability distributions; 2.3.8.5. Does god play dice?; 2.3.9. Time; 2.3.9.1. Reference time and selection processes; Principal remarks; Introduction of the reference system; 2.3.9.2. Structure of reference time; 2.3.9.3. Selections; Convolution integral; Two types of time variables; Rectangular form for the reference time distribution.
- Effect of motion2.3.9.4. Information inside, information outside; 2.3.9.5. Reality outside; 2.3.9.6. Constancy phenomena; 2.3.9.7. Schrödinger's equation and its limitations; Derivation of Schrödinger's equation from the principles of projection theory; Space-time information; Information in connection with usual quantum theory; Summary; 2.3.9.8. Real situation; General remarks; Aspects; 2.3.9.9.-Dependent systems; 2.3.9.10. Some additional remarks; 2.3.9.11. Uncertainty relation for time and energy; 2.3.9.12. Time within special theory of relativity; Block universe; Feynman diagrams.