Optical communication with two-photon coherent stages. I - Quantum-state propagation and quantum-noise reduction
Abstract
To determine the ultimate performance limitations imposed by quantum effects, it is also essential to consider optimum quantum-state generation. Certain 'generalized' coherent states of the radiation field possess novel quantum noise characteristics that offer the potential for greatly improved optical communications. These states have been called two-photon coherent states because they can be generated, in principle, by stimulated two-photon processes. The use of two-photon coherent state (TCS) radiation in free-space optical communications is considered. A simple theory of quantum state propagation is developed. The theory provides the basis for representing the free-space channel in a quantum-mechanical form convenient for communication analysis. The new theory is applied to TCS radiation.
- Publication:
-
IEEE Transactions on Information Theory
- Pub Date:
- November 1978
- Bibcode:
- 1978ITIT...24..657Y
- Keywords:
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- Coherent Light;
- Noise Reduction;
- Optical Communication;
- Photons;
- Quantum Electrodynamics;
- Communication Theory;
- Free Atmosphere;
- Signal To Noise Ratios;
- Communications and Radar