Add to ORKGThis course is offered to graduate students and covers topics in five major areas of quantum optical communication: quantum optics, single-mode and two-mode quantum systems, multi-mode quantum systems, nonlinear optics, and quantum systems theory. From the course home page: Course Description This course is offered to graduate students and covers topics in five major areas of quantum optical communication: quantum optics, single-mode and two-mode quantum systems, multi-mode quantum systems, nonlinear optics, and quantum systems theory. Specific topics include the following. Quantum optics: Dirac notation quantum mechanics; harmonic oscillator quantization; number states, coherent states, and squeezed states; radiation field quantization and...
Research in quantum communication requires knowledge of the information theory and teleportation of ...
Quantum information science, the rapidly developing interdisciplinary field, gives power to the inf...
Also issued as a Ph.D. thesis in the Dept. of Electrical Engineering, 1970.Bibliography: p. 168-173
This course is offered to graduate students and covers topics in five major areas of quantum optical...
A major part of our group's effort is now concentrated on optical communication. Our objectives...
Quantum Optics gives a comprehensive coverage of developments in quantum optics over the past years....
Playing a prominent role in communications, quantum science and laser physics, quantum nonlinear opt...
Playing a prominent role in communications, quantum science and laser physics, quantum nonlinear opt...
We review theoretical proposals for implementation of quantum computing and quantum communication wi...
Quantum information processing offers fundamental improvements over classical information processing...
Communication theory applied to lightwave channels is ordinarily carried out using the semiclassical...
Nagourney provides a course in quantum electronics for researchers in atomic physics and other relat...
Quantum information science, the rapidly developing interdisciplinary field, gives power to the inf...
Quantum information science, the rapidly developing interdisciplinary field, gives power to the inf...
Communication theory applied to lightwave channels is ordinarily carried out using the semiclassical...
Research in quantum communication requires knowledge of the information theory and teleportation of ...
Quantum information science, the rapidly developing interdisciplinary field, gives power to the inf...
Also issued as a Ph.D. thesis in the Dept. of Electrical Engineering, 1970.Bibliography: p. 168-173
This course is offered to graduate students and covers topics in five major areas of quantum optical...
A major part of our group's effort is now concentrated on optical communication. Our objectives...
Quantum Optics gives a comprehensive coverage of developments in quantum optics over the past years....
Playing a prominent role in communications, quantum science and laser physics, quantum nonlinear opt...
Playing a prominent role in communications, quantum science and laser physics, quantum nonlinear opt...
We review theoretical proposals for implementation of quantum computing and quantum communication wi...
Quantum information processing offers fundamental improvements over classical information processing...
Communication theory applied to lightwave channels is ordinarily carried out using the semiclassical...
Nagourney provides a course in quantum electronics for researchers in atomic physics and other relat...
Quantum information science, the rapidly developing interdisciplinary field, gives power to the inf...
Quantum information science, the rapidly developing interdisciplinary field, gives power to the inf...
Communication theory applied to lightwave channels is ordinarily carried out using the semiclassical...
Research in quantum communication requires knowledge of the information theory and teleportation of ...
Quantum information science, the rapidly developing interdisciplinary field, gives power to the inf...
Also issued as a Ph.D. thesis in the Dept. of Electrical Engineering, 1970.Bibliography: p. 168-173