Correction of secondary intensity maxima in a multidither, hillclimbing, adaptive optical system (for improving laser focused power characteristics)

A method for correcting the intensities of secondary maxima dependent on phase errors in a multidither, hill-climbing adaptive optical system for improving the focused power characteristics of laser systems is presented. The method involved the sampling and focusing of the beam containing secondary...

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Bibliographic Details
Published in:Optics letters 1980-09, Vol.5, p.410-412
Main Authors: ELKOW, R M, Wisner, G R
Format: Article
Language:English
Online Access:Get full text
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Summary:A method for correcting the intensities of secondary maxima dependent on phase errors in a multidither, hill-climbing adaptive optical system for improving the focused power characteristics of laser systems is presented. The method involved the sampling and focusing of the beam containing secondary maxima varying with a period of 2 pi relative to the phase error onto a variable aperture which changes the sign of the error signal when it is of sufficient size to transmit a spatially averaged diffraction pattern to the photovoltaic detector of the servo. The system has been applied to a nine-zone local-loop adaptive optical system, which has demonstrated the convergence of the technique. A simple one-dimensional model shows that the error components in certain regions of the diffraction pattern are shifted in phase by -pi from the axial components, allowing the correction of the 2 pi state near the first side-lobe maximum.
ISSN:0146-9592
DOI:10.1364/OL.5.000410