论文信息 - Coherent optical space communications

Coherent optical space communications

This paper reviews the present state of concepts and technologies of coherent optical space communications. Emphasis is placed on the receiving segment. Heterodyne and homodyne reception allows to realize sensitivities close to the theoretical limits which amount to as little as 10 to 40 photons per bit. They ask for a narrow-linewidth laser not only at the transmitter terminal but also as local optical source within the receiver. Coherent receivers require tight frequency control or even phase synchronization of laser radiation. In the laboratories, systems based on semiconductor lasers and on diodepumped Nd:YAG lasers were operated under frequency shift keying as well as with phase shift keyed modulation. Design studies performed in Europe and in the USA exemplify that coherent optical space links are the proper choice for a second generation, high-data-rate intersatellite communication system.

Walter R. Leeb

[1] Vincent Chan. Intersatellite Optical Heterodyne Communication Systems , 1989, Other Conferences.

[2] Vincent W. S. Chan. Space coherent optical communication systems--An introduction , 1987 .

[3] Manfred Wittig,et al. European SILEX project and other advanced concepts for optical space communications , 1991, Other Conferences.

[4] Leonid G. Kazovsky. Coherent Optical Receivers: Performance Analysis And Laser Linewidth Requirements , 1986 .

[5] W. R. Leeb,et al. Optical 90 degrees hybrid Costas-type receivers , 1990 .

[6] Robert B. Deadrick,et al. Laser crosslink subsystem: an overview , 1992, Photonics West - Lasers and Applications in Science and Engineering.

[7] B. M. Oliver. Thermal and quantum noise , 1965 .

[8] W R Leeb. Degradation of signal to noise ratio in optical free space data links due to background illumination. , 1989, Applied optics.

[9] Andrea E. Marini,et al. Definition of interorbit link optical terminals with diode-pumped Nd:host laser technology , 1991, Other Conferences.

[10] B. Wandernoth. 1064 nm, 565 Mbits/s PSK transmission experiment with homodyne receiver using synchronisation bits , 1991 .

[11] Walter R. Leeb. Heterodyne And Homodyne Detection In Optical Space Communications , 1989, Other Conferences.