Ebook: Quantum Communication and Information Technologies
- Tags: Quantum Physics, Atomic Molecular Optical and Plasma Physics, Optics Optoelectronics Plasmonics and Optical Devices
- Series: NATO Science Series 113
- Year: 2003
- Publisher: Springer Netherlands
- Edition: 1
- Language: English
- pdf
Remarkable recent developments in the field of quantum communications and quantum information processing include the achievement of quantum teleportation, quantum communication channels based on entangled states, and the discovery of quantum computing algorithms. The present book addresses the physical foundations of the subject, as well as the technological problems, discussing such aspects as photonics, quantum imaging, engineered entanglement in atomic and other physical systems, Bose-Einstein condensation, and decoherence. Indispensable reading for graduates and Ph.D. students in departments of physics, electrical and electronic engineering, mathematics, and computer science seeking both an orientation as well as advanced training in the field.
Remarkable recent developments in the field of quantum communications and quantum information processing include the achievement of quantum teleportation, quantum communication channels based on entangled states, and the discovery of quantum computing algorithms. The present book addresses the physical foundations of the subject, as well as the technological problems, discussing such aspects as photonics, quantum imaging, engineered entanglement in atomic and other physical systems, Bose-Einstein condensation, and decoherence. Indispensable reading for graduates and Ph.D. students in departments of physics, electrical and electronic engineering, mathematics, and computer science seeking both an orientation as well as advanced training in the field.
Remarkable recent developments in the field of quantum communications and quantum information processing include the achievement of quantum teleportation, quantum communication channels based on entangled states, and the discovery of quantum computing algorithms. The present book addresses the physical foundations of the subject, as well as the technological problems, discussing such aspects as photonics, quantum imaging, engineered entanglement in atomic and other physical systems, Bose-Einstein condensation, and decoherence. Indispensable reading for graduates and Ph.D. students in departments of physics, electrical and electronic engineering, mathematics, and computer science seeking both an orientation as well as advanced training in the field.
Content:
Front Matter....Pages i-xvi
Schmidt-Mode Analysis of Entanglement for Quantum Information Studies....Pages 1-12
Quantum Metrology and Quantum Information Processing with Hyper-Entangled Quantum States....Pages 13-45
Optimal Manipulations with Quantum Information: Universal Quantum Machines....Pages 47-84
An Introduction to Quantum Imaging....Pages 85-99
Lecture Notes on Quantum-Nondemolition Measurements in Optics....Pages 101-123
Cavity Quantum Electrodynamics with Single Atoms....Pages 125-144
Multipole Radiation in Quantum Domain....Pages 145-169
Theory of Atomic Hyperfine Structure....Pages 171-193
Interaction of Mesoscopic Devices with Non-Classical Electromagnetic Fields....Pages 195-210
Resonance Quantum Optics of Photonic Crystals....Pages 211-249
Photonic Crystals for Communications....Pages 251-271
Physics and Applications of Defect Structures in Photonic Crystals....Pages 273-297
Coherence and Superfluidity in Atomic Gases....Pages 299-328
Different Scattering Regimes in Two-Dimensional Bose-Einstein Condensates....Pages 329-338
An Information-Theoretic Analysis of Grover’s Algorithm....Pages 339-347
Back Matter....Pages 349-349
Remarkable recent developments in the field of quantum communications and quantum information processing include the achievement of quantum teleportation, quantum communication channels based on entangled states, and the discovery of quantum computing algorithms. The present book addresses the physical foundations of the subject, as well as the technological problems, discussing such aspects as photonics, quantum imaging, engineered entanglement in atomic and other physical systems, Bose-Einstein condensation, and decoherence. Indispensable reading for graduates and Ph.D. students in departments of physics, electrical and electronic engineering, mathematics, and computer science seeking both an orientation as well as advanced training in the field.
Content:
Front Matter....Pages i-xvi
Schmidt-Mode Analysis of Entanglement for Quantum Information Studies....Pages 1-12
Quantum Metrology and Quantum Information Processing with Hyper-Entangled Quantum States....Pages 13-45
Optimal Manipulations with Quantum Information: Universal Quantum Machines....Pages 47-84
An Introduction to Quantum Imaging....Pages 85-99
Lecture Notes on Quantum-Nondemolition Measurements in Optics....Pages 101-123
Cavity Quantum Electrodynamics with Single Atoms....Pages 125-144
Multipole Radiation in Quantum Domain....Pages 145-169
Theory of Atomic Hyperfine Structure....Pages 171-193
Interaction of Mesoscopic Devices with Non-Classical Electromagnetic Fields....Pages 195-210
Resonance Quantum Optics of Photonic Crystals....Pages 211-249
Photonic Crystals for Communications....Pages 251-271
Physics and Applications of Defect Structures in Photonic Crystals....Pages 273-297
Coherence and Superfluidity in Atomic Gases....Pages 299-328
Different Scattering Regimes in Two-Dimensional Bose-Einstein Condensates....Pages 329-338
An Information-Theoretic Analysis of Grover’s Algorithm....Pages 339-347
Back Matter....Pages 349-349
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