Hyperspectral imager development at Army Research Laboratory

Neelam Gupta

doi:10.1117/12.777110

16 April 2008 Hyperspectral imager development at Army Research Laboratory

Neelam Gupta

Proceedings Volume 6940, Infrared Technology and Applications XXXIV; 69401P (2008) https://doi.org/10.1117/12.777110
Event: SPIE Defense and Security Symposium, 2008, Orlando, Florida, United States

Abstract

Development of robust compact optical imagers that can acquire both spectral and spatial features from a scene of interest is of utmost importance for standoff detection of chemical and biological agents as well as targets and backgrounds. Spectral features arise due to the material properties of objects as a result of the emission, reflection, and absorption of light. Using hyperspectral imaging one can acquire images with narrow spectral bands and take advantage of the characteristic spectral signatures of different materials making up the scene in detection of objects. Traditional hyperspectral imaging systems use gratings and prisms that acquire one-dimensional spectral images and require relative motion of sensor and scene in addition to data processing to form a two-dimensional image cube. There is much interest in developing hyperspectral imagers using tunable filters that acquire a two-dimensional spectral image and build up an image cube as a function of time. At the Army Research Laboratory (ARL), we are developing hyperspectral imagers using a number of novel tunable filter technologies. These include acousto-optic tunable filters (AOTFs) that can provide adaptive no-moving-parts imagers from the UV to the long wave infrared, diffractive optics technology that can provide image cubes either in a single spectral region or simultaneously in different spectral regions using a single moving lens or by using a lenslet array, and micro-electromechanical systems (MEMS)-based Fabry-Perot (FP) tunable etalons to develop miniature sensors that take advantage of the advances in microfabrication and packaging technologies. New materials are being developed to design AOTFs and a full Stokes polarization imager has been developed, diffractive optics lenslet arrays are being explored, and novel FP tunable filters are under fabrication for the development of novel miniature hyperspectral imagers. Here we will brief on all the technologies being developed and present highlights of our research and development efforts.

Citation Download Citation

Neelam Gupta "Hyperspectral imager development at Army Research Laboratory", Proc. SPIE 6940, Infrared Technology and Applications XXXIV, 69401P (16 April 2008); https://doi.org/10.1117/12.777110

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