Earth laser beacon sensor for earth-oriented geosynchronous satellites.
暂无分享,去创建一个
[1] T. Chu,et al. Effects of precipitation on propagation at 0.63, 3.5, and 10.6 microns , 1968 .
[2] L. Elterman. VERTICAL-ATTENUATION MODEL WITH EIGHT SURFACE METEOROLOGICAL RANGES 2 TO 13 KILOMETERS , 1970 .
[3] D. Hodges,et al. High-resolution atmospheric-transmission measurement using a laser heterodyne radiometer. , 1973, Applied optics.
[4] J. Mcelroy,et al. Infrared heterodyne solar radiometry. , 1972, Applied optics.
[5] E. Silverberg,et al. Operation and performance of a lunar laser ranging station. , 1974, Applied optics.
[6] Peter O. Minott. Scintillation in an earth-to-space propagation path. , 1972 .
[7] D. C. Forster,et al. Wide-band laser communications in space , 1971 .
[8] James A. Dowling,et al. Behavior of focused beams in atmospheric turbulence: Measurements and comments on the theory* , 1973 .
[9] H. Melchior,et al. Photodetectors for optical communication systems , 1970 .
[10] D. Murcray. Optical Properties of the Atmosphere , 1968 .
[11] D. P. Woodman. Limitations in using atmospheric models for laser transmission estimates. , 1974, Applied optics.
[12] M. W. Fitzmaurice,et al. Optical communication in free space , 1974 .
[13] D. Rensch,et al. Comparative Studies of Extinction and Backscattering by Aerosols, Fog, and Rain at 10.6 micro and 0.63 micro. , 1970, Applied optics.
[14] R. Lutomirski,et al. Mutual coherence function of a finite optical beam and application to coherent detection. , 1973, Applied optics.