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Simple analysis of the energy density distribution of the diffracted ultraviolet beam from a fiber Bragg grating phase mask

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Abstract

The energy density distribution of the diffracted ultraviolet field from a phase mask used for fiber Bragg grating fabrication is efficiently analyzed at short-to-intermediate distances by application of a thin phase screen model and the angular spectrum decomposition method. A direct comparison with the results obtained from a rigorous coupled-wave model shows good agreement.

© 2004 Optical Society of America

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