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Proceedings Paper

Diffraction of Gaussian laser beam by three-dimensional grating of dielectric spheres
Author(s): Anatoly S. Lapchuk; Andrey A. Kryuchin; Michael Y. Kolesnikov; Viacheslav V. Petrov; Vladimir A. Klimenko
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Paper Abstract

To overcome the limitation of the current memories some authors developed method for storing data throughout a volume of memory material using two-photon absorption effect. In this work we represent the three-dimensional vector analysis of diffraction laser beam by the simple model of this volume data storage. We represent the volume data storage as homogeneous dielectric in which three- dimensional grating of spheres with complex (epsilon) , (mu) are located. To evaluate scattering field of partial wave we used Lorenz-Mie theory. The total scattering field is sum of partial scattering fields and some small addition field of re-radiation. The addition field of re-radiation was evaluated in first approach of perturbation theory. The investigation results were used for the determination of recording information limits into the memory material.

Paper Details

Date Published: 28 February 1997
PDF: 10 pages
Proc. SPIE 3055, International Conference on Optical Storage, Imaging, and Transmission of Information, (28 February 1997); doi: 10.1117/12.267703
Show Author Affiliations
Anatoly S. Lapchuk, Institute of Information Recording Problems (Ukraine)
Andrey A. Kryuchin, Institute of Information Recording Problems (Ukraine)
Michael Y. Kolesnikov, Institute of Information Recording Problems (Ukraine)
Viacheslav V. Petrov, Institute of Information Recording Problems (Ukraine)
Vladimir A. Klimenko, Institute of Information Recording Problems (Ukraine)


Published in SPIE Proceedings Vol. 3055:
International Conference on Optical Storage, Imaging, and Transmission of Information
Viacheslav V. Petrov; Sergei V. Svechnikov, Editor(s)

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