| Description |
1 online resource (1 PDF (xi, 68 pages)) : illustrations |
| Series |
Communications and signal processing collection |
|
Communications and signal processing collection
|
| Contents |
1. Why quantum communication? -- 1.1 Classical communication and its limits -- Concept of probability distribution -- Information or Shannon entropy -- Shannon-Hartley theorem -- Noisy-channel coding theorem -- Limits of classical communication -- 1.2 Role of quantum communication |
|
2. Physical basis of quantum communication -- 2.1 Basic quantum mechanics for QC -- Wave function -- Schṟödinger's equation -- Bra and Ket -- Probability function -- Superposition principle -- 2.2 Einstein-Podolsky-Rosen paradox -- 2.3 Some inequalities -- 2.4 Idea of entanglement -- 2.5 Quantum zeno effect -- 2.6 Decoherence -- 2.7 Propagation of light in an optical fiber |
|
3. Information theory for quantum communication -- 3.1 Mathematical representation of a single qubit -- 3.2 Entropies for information -- Von Neumann entropy -- Shannon entropy -- Renyi entropy -- Collision entropy -- Min-entropy -- Tsallis entropy -- Sharma-Mittal entropy -- 3.3 Shannon-like capacity theorems for QC -- 3.4 No-go theorems for qubits -- 3.5 A general model for quantum communication -- 3.6 Entanglement measures -- 3.7 Entanglement processing -- Appendix 3A. Special 3-qubit quantum states -- Appendix 3B. Peres-Horodecky criterion -- Appendix 3C. Von Neumann entropy -- Appendix 3D. Other information entropies |
|
4. Quantum error correction coding and cryptography -- 4.1 Need for coding in communication -- Source coding (classical) -- Channel coding (classical) -- 4.2 Source coding (quantum) -- 4.3 Error correction coding (quantum): an example -- 4.4 General error correction coding (quantum) -- 4.5 Cryptography: classical and quantum -- 4.6 A QKD protocols based on Heisenberg uncertainty principle -- 4.7 A QKD protocol based on entanglement -- 4.8 Practical QKD |
|
5. Quantum communication network (QCN) -- 5.1 A review of classical communication network -- 5.2 Basic QCN architecture -- 5.3 Quantum teleportation -- 5.4 Quantum super-dense coding -- 5.5 Quantum repeater network -- 5.6 Software defined quantum networking |
|
6. Physical realization of quantum communication network -- 6.1 Flying qubit sources -- 6.2 Stationary qubit sources -- 6.3 Qubit detection and measurement -- 6.4 Quantum repeater (QR) -- 6.5 Distributed quantum nodes -- Appendix 6A. Stationary qubit source technologies -- Reference -- Index |
| Summary |
Quantum mechanics is the most successful theory for describing the microworld of photons, atoms, and their aggregates. It is behind much of the successes of modern technology. It has deep philosophical implications to the fundamental nature of material reality. A few decades ago, it was also realized that it is connected to the computer science and information theory. With this understanding were born the new disciplines of quantum computing and quantum communication. The current book introduces the very exciting area of quantum communication, which lies at the intersection of quantum mechanics, information theory, and atomic physics. The relevant concepts of these disciplines are explained, and their implication for the task of unbreakably secure communication is elucidated. The mathematical formulation of various approaches has been explained. An attempt has been made to keep the exposition self-contained. A senior undergraduate with good mathematics and physics background should be able to follow the current thinking about these issues after understanding the material presented in this book |
| Analysis |
Information Theory |
|
Quantum Mechanics |
|
Shannon Entropy |
|
Quantum Coding |
|
Entanglement |
|
Quantum Information |
| Notes |
Title from PDF title page (viewed on August 6, 2016) |
| Bibliography |
Includes bibliographical references (page 63) and index |
| Subject |
Quantum communication.
|
|
TECHNOLOGY & ENGINEERING -- Mechanical.
|
|
Quantum communication
|
| Form |
Electronic book
|
| ISBN |
9781606505571 |
|
1606505572 |
|
1606505564 |
|
9781606505564 |
|
