Title :
Adaptive aberration correction for specimen induced spherical aberration
Author :
Sherman, L. ; Ye, J.Y. ; Norris, T.B.
Author_Institution :
Ultrafast Opt. Sci., Michigan Univ., Ann Arbor, MI, USA
Abstract :
Summary form only given. In normal operation with a dry or oil immersion microscope objective there is an index mismatch with a water-based biological sample. This index mismatch causes a depth dependant spherical aberration that severely limits the range that a sample can be imaged along the optical axis. We have previously demonstrated the use of a membrane deformable mirror to correct for off-axis aberrations in a confocal microscopy system. In this study we apply a genetic learning algorithm in conjunction with third harmonic generation to determine the appropriate shape of the deformable mirror to correct for aberrations in longitudinal depth scanning in a confocal microscope.
Keywords :
aberrations; adaptive optics; biological techniques; micro-optics; mirrors; optical feedback; optical harmonic generation; optical microscopes; optical microscopy; Strehl ratio; adaptive aberration correction; confocal microscope; deformable mirror; depth dependant spherical aberration; electrostatic actuators; feedback; genetic learning algorithm; honeycomb pattern; index mismatch; longitudinal depth scanning; micromachined membrane mirror; specimen induced spherical aberration; third harmonic generation; three-wave shearing interferometry; water-based biological sample; Biomedical optical imaging; Focusing; Mirrors; Nonlinear optics; Optical harmonic generation; Optical microscopy; Shape; Signal generators; Skin; Ultrafast optics;
Conference_Titel :
Lasers and Electro-Optics, 2001. CLEO '01. Technical Digest. Summaries of papers presented at the Conference on
Conference_Location :
Baltimore, MD, USA
Print_ISBN :
1-55752-662-1
DOI :
10.1109/CLEO.2001.947873
