DocumentCode
2170076
Title
Vectorial high NA computation of the light electric field near the focus and inside the thin film stack of optical discs
Author
Lagrange, A. ; Poupinet, Ludovic
Author_Institution
CEA/Leti, Grenoble
fYear
2002
fDate
2002
Firstpage
314
Lastpage
316
Abstract
The trends in optical recording on discs are to use higher numerical apertures and lower wavelengths. The next generation of discs will certainly use NA=0.85 focusing optics and λ=400 nm laser sources (DVR). In order to simulate thermal processes while recording and reading an optical disc, it is essential to determine the exact beat source. With such high apertures, and even with SIL (solid immersion lens) optics, the scalar models can seem unreliable. We used a vectorial model to compute the spatial distribution of the electric field near the focus point inside multilayered thin film stacks in order to evaluate the approximation we make in our thermo optical simulation models.
Keywords
electric field effects; light polarisation; microlenses; optical disc storage; optical focusing; optical multilayers; semiconductor lasers; thermal analysis; thermo-optical effects; vectors; 400 nm; DVR; SIL optics; electric field spatial distribution vectorial model; focusing optics; heat source determination; internal light electric fields; laser sources; linear/circular polarization; multilayered thin film stacks; near focus point light electric fields; numerical apertures; optical disc recording/reading; optical disc thin film stacks; optical recording; recording wavelength; scalar model reliability; solid immersion lens optics; thermal process simulation; thermo optical simulation models; vectorial high NA computation; Apertures; Computational modeling; Disk recording; Distributed computing; Laser modes; Lenses; Optical computing; Optical films; Optical recording; Solid modeling;
fLanguage
English
Publisher
ieee
Conference_Titel
Optical Memory and Optical Data Storage Topical Meeting, 2002. International Symposium on
Print_ISBN
0-7803-7379-0
Type
conf
DOI
10.1109/OMODS.2002.1028652
Filename
1028652
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