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Proceedings Paper

Volume holographic beam splitter for hyperspectral imaging applications
Author(s): Joseph D. Matchett; Richard I. Billmers; Elizabeth J. Billmers; Mary E. Ludwig
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Paper Abstract

RL Associates Inc. has designed a novel 12-channel, multi-spectral beam splitter which covers the visible region of the spectrum. Commonly-used beam splitting techniques include dichroic mirrors, spectral bandpass filters, ruled diffraction gratings, and prisms, all of which are large and difficult to handle. The RL Associates' beam splitter, developed for the US Navy's multi-spectral imaging programs, uses multiplexed volume holographic gratings. A volume holographic optical splitter offers multi-channel splitting in a single element which can be customized to accommodate a broad range of sensor array geometries. The RL Associates beam splitter has an efficiency of 75% or greater, and an angular acceptance of up to 25 degrees. These gratings are written in a thermally stable photosensitive glass. Currently, a 12-channel beam splitter has been developed by multiplexing three volume holograms in a 2x2 array with each element being offset by approximately 35 nm. The output of each element is then directed toward a separate imaging detector. Each detector is placed at a specific, unique position relative to the other detectors. This ensures that no cross talk occurs between beam splitting elements. A prototype beam splitter is currently under development. This beam splitter will extend into the short-wave infrared region while still working in the visible region.

Paper Details

Date Published: 14 September 2007
PDF: 8 pages
Proc. SPIE 6668, Novel Optical Systems Design and Optimization X, 66680K (14 September 2007); doi: 10.1117/12.733778
Show Author Affiliations
Joseph D. Matchett, RL Associates, Inc. (United States)
Richard I. Billmers, RL Associates, Inc. (United States)
Elizabeth J. Billmers, RL Associates, Inc. (United States)
Mary E. Ludwig, RL Associates, Inc. (United States)


Published in SPIE Proceedings Vol. 6668:
Novel Optical Systems Design and Optimization X
R. John Koshel; G. Groot Gregory, Editor(s)

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