Abstract
The aberrations of various types of curved constant-period transmission gratings are discussed, using Fermat’s principle. We show that optimal performance is achieved with a grating assembled from individual facets which form a nonclosed surface. For this geometry, primary coma and astigmatism are proportional to the facet size and, hence, may be adapted to the angular resolution of a Wolter-type telescope.
© 1978 Optical Society of America
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