Abstract

The first Born approximation is applied to calculate the angular selectivity for different positions on the reconstructed image as a function of the object beam’s optical axis angle ${\theta }_{ob}$ and reference beam angle ${\theta }_{rw}$ for a holographic data storage system that records the Fourier transform holograms in a medium with an infinite plane-wave reference beam. Results are compared with those calculated by the coupled-wave theory.

© 2008 Optical Society of America

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