Title :
Practical issues of feedback interferometry for adaptive optics
Author :
Cheung, D.C.L. ; Somervell, A.R.D. ; Barnes, T.H. ; Haskell, T.G.
Author_Institution :
Dept. of Phys., Auckland Univ., New Zealand
Abstract :
The idea of feedback interferometry for aberration correction was proposed by the author. Conventional adaptive optics (AO) systems usually use separate subsystems to perform wavefront sensing and correction, which involve large matrix manipulation. In a feedback interferometer, the intensity of the interference pattern is used to control the wavefront corrector, thus combining the two subsystems together. To develop a practical system for use in real turbulent environments, there are several issues that need to be considered. There are concerns in the control algorithm as well when try to use the system in practice. Scintillation and frequency response are the major issues. The frequency response determines how fast the aberration that the system can track and correct. Atmospheric induced aberration might have frequency components as high as 200 Hz.
Keywords :
aberrations; adaptive optics; atmospheric optics; frequency response; light interference; light interferometry; scintillation; wavefront sensors; 200 Hz; aberration correction; atmospheric induced aberration; control algorithm; conventional adaptive optics systems; feedback interferometry; frequency response; interference pattern; matrix manipulation; scintillation; turbulent environment; wavefront correction; wavefront sensing; Adaptive optics; Mirrors; Optical feedback; Optical interferometry; Optical modulation; Optical sensors; Optical surface waves; Optimized production technology; Output feedback; Physics;
Conference_Titel :
Lasers and Electro-Optics Europe, 2003. CLEO/Europe. 2003 Conference on
Print_ISBN :
0-7803-7734-6
DOI :
10.1109/CLEOE.2003.1313809
