Title :
Liquid crystal lens for spherical aberration compensation in a Blu-ray disc system
Author :
Knittel, J. ; Richter, H. ; Hain, M. ; Somalingam, S. ; Tschudi, T.
Author_Institution :
Res. & Innovation, THOMSON, Villingen
Abstract :
Theoretical and experimental investigations into the use of a liquid crystal lens with a variable focal length for spherical aberration compensation in an optical pickup are presented. Spherical aberration is induced when the cover-layer thickness of the optical disc deviates from its nominal value. A convex liquid crystal lens is integrated into a Blu-ray standard conform optical pickup and tested with a 50 Gbyte dual-layer ROM disk. Excellent jitter values on the upper (6.8%) and on the lower (6.4%) data layer are achieved
Keywords :
aberrations; jitter; lenses; liquid crystal devices; optical disc storage; optical multilayers; 50 Gbyte; Blu-ray disc system; cover layer thickness; dual layer ROM disk; jitter; liquid crystal lens; optical disc; optical pickup; spherical aberration compensation; variable focal length;
Journal_Title :
Science, Measurement and Technology, IEE Proceedings -
DOI :
10.1049/ip-smt:20051044
