Speckle-metric-optimization-based adaptive optics for laser beam projection and coherent beam combining

Speckle-metric-optimization-based adaptive optics for laser beam projection and coherent beam combining

Maximization of a projected laser beam's power density at a remotely located extended object (speckle target) can be achieved by using an adaptive optics (AO) technique based on sensing and optimization of the target-return speckle field's statistical characteristics, referred to here as s...

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Veröffentlicht in:Optics letters 2012-07, Vol.37 (14), p.2802-2804
Hauptverfasser: Vorontsov, Mikhail, Weyrauch, Thomas, Lachinova, Svetlana, Gatz, Micah, Carhart, Gary
Format: Artikel
Sprache:eng
Schlagworte:
Adaptive optics
Beams (radiation)
Coherence
Density
Detection
Dithering
Laser beams
Projection
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Zusammenfassung:Maximization of a projected laser beam's power density at a remotely located extended object (speckle target) can be achieved by using an adaptive optics (AO) technique based on sensing and optimization of the target-return speckle field's statistical characteristics, referred to here as speckle metrics (SM). SM AO was demonstrated in a target-in-the-loop coherent beam combining experiment using a bistatic laser beam projection system composed of a coherent fiber-array transmitter and a power-in-the-bucket receiver. SM sensing utilized a 50 MHz rate dithering of the projected beam that provided a stair-mode approximation of the outgoing combined beam's wavefront tip and tilt with subaperture piston phases. Fiber-integrated phase shifters were used for both the dithering and SM optimization with stochastic parallel gradient descent control.
ISSN:0146-9592
1539-4794
DOI:10.1364/OL.37.002802