Article
Atmospheric Compensation with a Speckle Beacon Under Strong Scintillation Conditions: Directed Energy and Laser Communication Applications
Applied Optics
Document Type
Article
Publication Date
10-20-2005
Abstract
Wavefront control experiments in strong scintillation conditions (scintillation index, ≃1) over a 2.33 km, near-horizontal, atmospheric propagation path are presented. The adaptive-optics system used comprises a tracking and a fast-beam-steering mirror as well as a 132-actuator, microelectromechanical-system, piston-type deformable mirror with a VLSI controller that implements stochastic parallel gradient descent control optimization of a system performance metric. The experiments demonstrate mitigation of atmospheric distortions with a speckle beacon typical for directed energy and free-space laser communication applications.
Inclusive pages
6388-6400
ISBN/ISSN
1559-128X
Copyright
Copyright © 2005, Optical Society of America
Publisher
Optical Society of America
Place of Publication
Washington, DC
Peer Reviewed
Yes
Disciplines
Citation Information
Thomas Weyrauch and Mikhail Vorontsov. "Atmospheric Compensation with a Speckle Beacon Under Strong Scintillation Conditions: Directed Energy and Laser Communication Applications" Applied Optics Vol. 44 Iss. 30 (2005) Available at: http://works.bepress.com/mikhail_vorontsov/19/
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