Table of contents
Quantum Energy Teleportation
From entanglement and local measurements to Hotta’s protocol, rigorous models, experiments, and future applications
Read each section in order. Every title can be opened as a TheoryTrace document.
- Cover1
- Copyright2
- How to read this book3
- Introduction4
- Chapter 1: What Quantum Energy Teleportation Is—and Is Not5
- Chapter 2: Quantum States, Observables, and Measurements6
- Chapter 3: Composite Systems, Entanglement, and Correlations7
- Chapter 4: Energy in Quantum Mechanics8
- Chapter 5: Locality, Causality, and No-Signaling9
- Chapter 6: Vacuum Fluctuations and Ground-State Entanglement10
- Chapter 7: The Basic Logic of Hotta’s Quantum Energy Teleportation11
- Chapter 8: A Minimal Two-Spin QET Model12
- Chapter 9: Mathematical Structure of QET Protocols13
- Chapter 10: QET in Spin Chains14
- Chapter 11: Harmonic Chains and Continuous Variables15
- Chapter 12: Quantum Field Theory Viewpoint16
- Chapter 13: Passivity, Local Cooling, and Negative Energy Density17
- Chapter 14: Information, Entropy, and Energy Gain18
- Chapter 15: Thermodynamics of Quantum Energy Teleportation19
- Chapter 16: Noise, Imperfections, and Open-System Effects20
- Chapter 17: Experimental Platforms and Demonstrations21
- Chapter 18: Computing QET Numerically22
- Chapter 19: QET, Quantum Communication, and Quantum Networks23
- Chapter 20: Possible Applications and Future Directions24
- Chapter 21: Open Problems in Quantum Energy Teleportation25
- Chapter 22: Building Mastery Through Complete Worked Examples26
- Conclusion27