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22 February 2012 Design of a 40-Watt 1.55μm uplink transmitter for Lunar Laser Communications
D. O. Caplan, J. J. Carney, R. E. Lafon, M. L. Stevens
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Proceedings Volume 8246, Free-Space Laser Communication Technologies XXIV; 82460M (2012) https://doi.org/10.1117/12.915982
Event: SPIE LASE, 2012, San Francisco, California, United States
Abstract
A ground-based 40W 1.55μm uplink transmitter for lunar laser communications is described. The transmitter, which generates wavelength multiplexed communication and beacon signals, is implemented using four 10W spatial-diversity channels to reduce far-field atmospheric-turbulence-induced fading and facilitate high-power signal generation via parallel-spatial-combining of commercially-available EDFAs. Each transmitter channel can generate a 1 kHz modulated beacon for spatial acquisition, and a multi-rate 4-PPM communication signal at a 311 MHz slot rate with 16:1 and 32:1 duty cycles to support 38.9 Mbit/s and 19.4 Mbit/s channel rates, respectively. Details on the transmitter design, including the mitigation of optical nonlinear effects are discussed.
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D. O. Caplan, J. J. Carney, R. E. Lafon, and M. L. Stevens "Design of a 40-Watt 1.55μm uplink transmitter for Lunar Laser Communications", Proc. SPIE 8246, Free-Space Laser Communication Technologies XXIV, 82460M (22 February 2012); https://doi.org/10.1117/12.915982
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KEYWORDS
Transmitters
Modulation
Telescopes
Optical filters
Nonlinear optics
Optical amplifiers
Phase modulation
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