Quantum mechanics' return to local realism. (2018)
- Record Type:
- Book
- Title:
- Quantum mechanics' return to local realism. (2018)
- Main Title:
- Quantum mechanics' return to local realism
- Further Information:
- Note: Runsheng Tu.
- Authors:
- Tu, Runsheng
- Contents:
- 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 ScopeIntro; 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 … (more)
- Publisher Details:
- Newcastle upon Tyne : Cambridge Scholars Publishing
- Publication Date:
- 2018
- Extent:
- 1 online resource (290 pages), illustrations
- Subjects:
- 530.12
Quantum physics (quantum mechanics & quantum field theory)
Quantum theory
SCIENCE / Energy
SCIENCE / Mechanics / General
SCIENCE / Physics / General
Quantum & theoretical chemistry
Particle & high-energy physics
Electronic books - Languages:
- English
- ISBNs:
- 9781527519978
- Related ISBNs:
- 152751997X
1527513378
9781527513372 - Notes:
- Note: Includes bibliographical references.
Note: Print version record. - Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
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- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.346587
- Ingest File:
- 01_301.xml