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References related to link budget [AFGL-ms] Air Force Geophysics Laboratory - atmospheric constituent profile for midlatitude summer, AFGL-TR-86-0110 (May 1986) [AND06] L. C. Andrews, R. L. Phillips, R. J. Sasiela, and R. R. Parenti, "Strehl ratio and scintillation theory for uplink Gaussian-beam waves: beam wander effects," Optical Engineering 45(7), 076001 (2006) [Bel00] A. Belmonte, "Feasibility Study for the Simulation of Beam Propagation: Consideration of Coherent Lidar Performance," Appl. Opt. 39, 5426-5445 (2000) [Bis03] Biswas, A. and S. Piazzolla, "Deep-Space Optical Communications Downlink Budget from Mars: System Parameters," IPN PR 42-154, AprilJune 2003, pp. 1-38, August 15, 2003 [CAP07] D. O. Caplan, “Laser communication transmitter and receiver design”, J. Opt. Fiber Commun. Rep. 4, 225 (2007) [CCSDS02] CCSDS 401.0-B, Blue book “Radio frequency and modulation systems— part 1: Earth stations and spacecraft” §4.1.2. Design Control Table (DCT) available at http://deepspace.jpl.nasa.gov/advmiss/docs/ccsds_dct.zip [DEG74] J. Degnan, B. Klein: “Optical Antenna Gain. 2: Receiving Antennas”, Applied Optics, Vol. 13(9), pp. 2397-2401, Sept. 1974 [Fri65] D. L. FRIED, "Statistics of a Geometric Representation of Wavefront Distortion," J. Opt. Soc. Am. 55, 1427-1431 (1965) [FRI67] D. L. Fried, “Optical heterodyne detection of an atmospherically distorted signal wave front,” Proc. IEEE 55, 57–66, (1967). [Hei11] F. Heine, H. Kämpfner, R. Lange, R. Czichy, M. Lutzer, R. Meyer, “Laser communication applied for EDRS, the European data relay system”, CEAS Space Journal, (2011) [Hem06] H. Hemmati (ed.), "Deep-space optical Communications", WileyInterscience (2006) [Hem09] H. Hemmati (ed.), Near-Earth Laser Communications, CRC Press (2009) [Jeg98] M. Jeganathan, G. S. Mecherle and J. R. Lesh, "Development of the freespace optical communications analysis software", Proc. SPIE 3266, 90 (1998) [KLE74] B. Klein, J. Degnan: „Optical Antenna Gain. 1: Transmitting Antennas“, Applied Optics, Vol. 13(9), pp.2134-2141, Sept. 1974 [PER07] N. Perlot, "Evaluation of the scintillation loss for optical communication systems with direct detection", Opt. Eng. 46, Issue 2, 025003 (2007) [PER07b] N. Perlot, "Turbulence-induced fading probability in coherent optical communication through the atmosphere," Appl. Opt. 46, 7218-7226 (2007) [Win91] D. M. Winker, "Effect of a finite outer scale on the Zernike decomposition of atmospheric optical turbulence," J. Opt. Soc. Am. A 8, 1568-1573 (1991) [Yur11a] Harold T. Yura and David A. Kozlowski, "Low Earth orbit satellite-toground optical scintillation: comparison of experimental observations and theoretical predictions," Opt. Lett. 36, 2507-2509 (2011) [Yur11b] Harold T. Yura and Renny A. Fields, "Level crossing statistics for optical beam wander in a turbulent atmosphere with applications to ground-tospace laser communications," Appl. Opt. 50, 2875-2885 (2011)
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