Abstract:
The potentials for and limitations to the use of intensity fluctuations of laser beams propagating through a turbulent atmosphere for generating random data when keying in confidential optical communication systems are analyzed. The technique is based on the reciprocity theorem for optical fields. Light propagation in a system of two transceivers directed at each other, the signals from which are distorted by an atmospheric channel, is numerically simulated. An experimental setup is created; the generation of random correlated signals in such a system is experimentally studied. A need for low-pass filtering of signals received is experimentally ascertained. The efficiency of this filtration is estimated. The dependences of the correlation coefficient on the geometrical parameters of the system and turbulent conditions along the propagation path are derived from the numerical simulation in a wide range of distances, aperture radii, and values of turbulence intensity. Theoretical results are shown to be in a good agreement with the results of laboratory experiments.
Keywords:
laser radiation, confidential optical communication, cryptography, atmospheric turbulence, intensity fluctuations, reciprocity theorem
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