Introduction to Photon Communication
Bendjaballah, Cherif.
Introduction to Photon Communication [electronic resource] / by Cherif Bendjaballah. - VII, 198 p. online resource. - Lecture Notes in Physics Monographs, 29 0940-7677 ; . - Lecture Notes in Physics Monographs, 29 .
Contents: Elements of the Mathematical Formulation of the Quantum Theory; States and Operators of Interest in Quantum Communication; Representations; Coherent Receiver Operators; Measurement Processes -- Performance Criteria: Detection, Information; Classical Formulation; Quantum Expressions -- Direct Detection Processing; Random Point Processes Theory; Detection Performance; Information Performance -- Phase Operator; Some models.
In recent years, progress in the generation of squeezed states of light, mainly characterized by a reduced noise property, has stimulated important work in relation to their potential use to improve the sensitivity of optical communication systems. These notes are devoted to the detection and information processing of optical signals at very low levels of power. A survey of recent developments from the quantum and classical points of view is presented. Ultimate limits of performance under the criteria of detection and information are established. Some of the results are detailed and may be utilized for the design of practical systems of communication using present technology. These lecture notes address physicists and engineers interested in present and future developments in optical communications.
9783540492061
10.1007/978-3-540-49206-1 doi
Mathematical physics.
Quantum theory.
Optics, Lasers, Photonics, Optical Devices.
Quantum Optics.
Mathematical Methods in Physics.
Numerical and Computational Physics, Simulation.
Quantum Information Technology, Spintronics.
Quantum Physics.
TA1671-1707 TA1501-1820
621.36
Introduction to Photon Communication [electronic resource] / by Cherif Bendjaballah. - VII, 198 p. online resource. - Lecture Notes in Physics Monographs, 29 0940-7677 ; . - Lecture Notes in Physics Monographs, 29 .
Contents: Elements of the Mathematical Formulation of the Quantum Theory; States and Operators of Interest in Quantum Communication; Representations; Coherent Receiver Operators; Measurement Processes -- Performance Criteria: Detection, Information; Classical Formulation; Quantum Expressions -- Direct Detection Processing; Random Point Processes Theory; Detection Performance; Information Performance -- Phase Operator; Some models.
In recent years, progress in the generation of squeezed states of light, mainly characterized by a reduced noise property, has stimulated important work in relation to their potential use to improve the sensitivity of optical communication systems. These notes are devoted to the detection and information processing of optical signals at very low levels of power. A survey of recent developments from the quantum and classical points of view is presented. Ultimate limits of performance under the criteria of detection and information are established. Some of the results are detailed and may be utilized for the design of practical systems of communication using present technology. These lecture notes address physicists and engineers interested in present and future developments in optical communications.
9783540492061
10.1007/978-3-540-49206-1 doi
Mathematical physics.
Quantum theory.
Optics, Lasers, Photonics, Optical Devices.
Quantum Optics.
Mathematical Methods in Physics.
Numerical and Computational Physics, Simulation.
Quantum Information Technology, Spintronics.
Quantum Physics.
TA1671-1707 TA1501-1820
621.36