Abstract
One-dimensional array generators with seven to fifteen spots are designed by the
method of virtual sources in combination with simulated-annealing optimization.
Continuous surface-relief grating array generators and their discretized
versions are analyzed with rigorous diffraction theory, and the results are
compared with those obtained from Fourier-optics theory. The array-generator
designs have high diffraction efficiency and good uniformity.
© 1993 Optical Society of America
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