Quantum mechanics' return to local realism /
This book proposes a model of the light knot electronic structure and the theory of quantum inverse measurement, showing that diffraction experiments can be explained by directional quantization. It points out that there exists a logical loophole in the interpretation process of quantum entanglement...
Clasificación: | Libro Electrónico |
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Autor principal: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
Newcastle upon Tyne, UK :
Cambridge Scholars Publishing,
2018.
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Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Intro; Contents; Foreword; Chapter One; 1.1. The Background and Preparation; 1.2. The Very Serious Logical Questions in the Interpretation System of Existing Quantum Mechanics; 1.3. The Scientific Basis of Quantum Inverse Measurement Theory; 1.4. Experiments with Conforming Quantum Inverse Measurement Conditions; 1.5. The Influence of QIMT on the State Superposition Principle; 1.6. Fresh Blood Is Inputted for Quantum Mechanics by the Model of the Light knot Electronic Structure; 1.7. The Main Content and Advantage of Tu's Measurement View and Interpretation System of Quantum Mechanics
- 1.8. Concluding RemarksChapter Two; 2.1. The Serious Problem of Huygens' Principle; 2.2. The Paradox of the de Broglie Wave Hypothesis; 2.3. The Essential Exploration of the Electron Diffraction Experiment; 2.4. Direction Quantization Interpretation of Diffraction Fringes; 2.5. The Model of Light knot Electronic Structure; 2.6. The Major Logic Defects of Experiments Explain Quantum Entanglement; 2.7. The Retention and Play of the Diffraction Properties of the Moving Electrons in the Vacuum Are Independent of Its Previous Experience
- 2.8. Things that can be Described by Wave Functions Are not Necessarily2.9. The Paradox of the Uncertainty Principle; 2.10. The Sources of Probability in Quantum Mechanics Are Incorrect; Chapter Three; 3.1. Background Analysis; 3.2. The Proof of Compatibility between the Uncertainty Relation and the Classical Laws of; 3.3. Analysis of the Essence and Applicable Scope of the General Heisenberg Relation; 3.4. Light Emerging out of Thin Air; 3.5. General Heisenberg Relation Affects the Basic Concept of Quantum Mechanics
- 3.6. Basic Supposition, Prediction, and Confirmation of Experimental Designs3.7. Using the Model of the Light knot Electronic Structure to Establish the Mathematical Form System of Local Realism Quantum Mechanics; 3.8. The Significance of the Work; Chapter Four; 4.1. The Calculation of Pairing Energy of Ele; 4.2. Several Atoms and Molecules to Be Calculated by the Method of Local Realism Quantum Mechanics; Chapter Five; 5.1. Experimental Principle of Measurement of the Interaction Energy between the Electrons in A; 5.2. Statistical Law of the Ionization Energy of Elements and Its Application
- 5.3. Discussion on the Significance of the Relationship between the Ionization Energy and the Interaction Energy of ElementsChapter Six; 6.1. The Electron Diffraction Experiment in a Cloud Chamber or a Spark Chamber; 6.2. A Longitudinal Electrode or Magnet Is Mounted at the Exit Side of the Slit; 6.3. Covering the Screen with a Piece of Glass, which a Photon can Penetrate but an Electron Cannot, in Front of the Screen; 6.4. Covering the Screen with a Piece of Metal Foil, which an Electron can Penetrate but a Photon cannot, in front of the Screen; 6.5. Discuss and Predict; Appendix A