HOLOGRAPHIC DIELECTRIC GRATING: THEORY AND PRACTICE,
Abstract
Lossy dielectric gratings have been analyzed using a Raman-Nath formalism modified to incorporate losses. Four second order coupled-wave equations are retained for computation of the zero; first-, and second order diffracted beams for a multitude of practical cases. Significant differences are found in comparison to computations in which only two coupled waves are retained. The entire range of losses and thicknesses encountered for holograms in film emulsions has been studied using this unified approach. Graphs have been prepared to show the efficiency, power diffracted in the first-order relative to the total incident power, versus the index modulation for a wide range of thicknesses and losses. At a given thickness, optimum efficiency requires a specific exposure. The efficiency for an optimum exposure is plotted versus the loss factor with thickness as a parameter. New experimental data are presented for bleached gratings in which several diffracted orders are measured and compared to our theory for a wide range of index modulation and loss factors. (Author)
Document Details
- Document Type
- Technical Report
- Publication Date
- Aug 01, 1969
- Accession Number
- AD0704154
Entities
People
- Milton Chang
- Nicholas George
Organizations
- California Institute of Technology