Open AccessMulti-aperture digital coherent combining for free-space optical communication receivers
Author(s) -
David J. Geisler,
Timothy M. Yarnall,
Mark L. Stevens,
Curt Schieler,
Bryan S. Robinson,
Scott A. Hamilton
Publication year - 2016
Publication title -
optics express
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.394
H-Index - 271
ISSN - 1094-4087
DOI - 10.1364/oe.24.012661
Subject(s) - aperture (computer memory) , optics , computer science , free space optical communication , lossless compression , antenna aperture , signal (programming language) , optical communication , electronic engineering , physics , telecommunications , antenna (radio) , acoustics , engineering , data compression , artificial intelligence , dipole antenna , programming language
Space-to-ground optical communication systems can benefit from reducing the size, weight, and power profiles of space terminals. One way of reducing the required power-aperture product on a space platform is to implement effective, but costly, single-aperture ground terminals with large collection areas. In contrast, we present a ground terminal receiver architecture in which many small less-expensive apertures are efficiently combined to create a large effective aperture while maintaining excellent receiver sensitivity. This is accomplished via coherent detection behind each aperture followed by digitization. The digitized signals are then combined in a digital signal processing chain. Experimental results demonstrate lossless coherent combining of four lasercom signals, at power levels below 0.1 photons/bit/aperture.
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