Active Optics: A New Technology for the Control of Light

Abstract

Active optical systems are those in which real-time control over optical wavefronts is employed to optimize system performance in the presence of random disturbances. Applications include (1) outgoing-wave systems for maximizing the power density of a laser beam on a target and (2) received-wave systems for maximizing the angular resolving power of a telescope viewing a distant object through a turbulent atmosphere. In this tutorial/review paper, the basic concepts of active optics systems and their historical evolution are discussed, from early figure-control systems with a servo bandwidth of less than 1 Hz to the recently developed high-bandwidth systems for atmospheric compensation with bandwidths of several hundred hertz. A critical comparison of the various approaches to wavefront sensing is then made covering both coherent (laser) and incoherent (white-light) systems. Current techniques for wavefront correction, including Bragg cells, segmented mirrors, thin-plate deformable mirrors, monolithic mirrors, and membrane mirrors are described. The performance analysis and optimization of closed-loop systems is covered using two basic models. The paper concludes with a review of the design and performance of five current experimental active optical systems, with some comments on future applications.

Document Details

Document Type

Technical Report

Publication Date

Jun 01, 1977

Accession Number

ADA339170

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