The influence of the noise of atmospheric channel on the probability distribution of the current on the output of the photoreceiver is considered. The efficiency corresponding to optimal receiver in depend on coefficient of amplification of photoreceiver and signal to noise ratio is investigated.
1. A.G. Sheremet’ev and R.G. Tolparev, Laser Communications (Svyaz’, Moscow, 1974)
2. R.M. Gagliardi and S. Karp, Optical Communications (Wiley, New York, 1976)
3. R.A. Kazaryan, A.V. Oganesyan, K.P. Pogosyan, et al., Optical Communication Systems in the Atmospheric Channel (Radio i svyaz’, Moscow, 1985)
4. J.H. Chunside and С.M. McIntyre Appl. Opt. 17, 2141 (1978)
5. J.H. Chunside and C.M. McIntyre Appl. Opt. 17, 2148 (1978)
6. J.H. Chunside and C.M. McIntyre Appl. Opt. 19, 582 (1980)
7. R.A. Kazaryan and A.V. Oganesyan Izvestiya Akad. Nauk ArSSR, Ser. Fiz., 13, 491 (1978)
8. R.A. Kazaryan and A.V. Oganesyan Kvant. Electron. 10, 272 (1983)
9. J.W. Strohbehn (ed.), Laser Beam Propagation in the Atmosphere. Topics in Applied Physics, Vol. 25 (Springer Verlag, Berlin, 1978)
10. A.S. Gurvich, A.I. Kon, V.L. Mironov, et al., Laser Radiation in a Turbulent Atmosphere (Nauka, Moscow, 1976).
11. V.E. Zuev Propagation of Laser radiation in the Atmosphere (Radio i svyaz’, Moscow, 1985)
12. N.D. Ustinov, I.N. Matveev, and V.V. Protopopov Methods of Analysis of Optical Fields in Laser Radar Location (Nauka, Moscow, 1983)
13. R. Fante, Proc. IEEE 68, 75 (1980)
14. R.T. Compton, Jr., Proc. IEEE 66, 23 (1978)
15. A.M. Ostrovsky, Solution of Equations and Systems of Equations (Resheniye uravnenii i sistem uravnenii) (Inostrannaya Literature, Moscow, 1963)