Optical and engineering development of the spatial heterodyne interferometer for emergent line discrimination spectroscopy (SHIELDS)

S. Watchorn; J, Noto; J. Anderson; C, E. Sioris

doi:10.1117/12.818670

30 April 2009 Optical and engineering development of the spatial heterodyne interferometer for emergent line discrimination spectroscopy (SHIELDS)

S. Watchorn, J, Noto, J. Anderson, C, E. Sioris

Author Affiliations +

Proceedings Volume 7310, Non-Intrusive Inspection Technologies II; 731002 (2009) https://doi.org/10.1117/12.818670
Event: SPIE Defense, Security, and Sensing, 2009, Orlando, Florida, United States

Abstract

The background and beginning of this project have been described in a previous SPIE paper1. Since then, the Na monolithic Spatial Heterodyne Spectrometer (SHS) units were constructed, and the housing for the full SHIELDS unit designed and built. The dual-wavelength SHIELDS was designed, and its construction begun, while the LC reflectors used in the selection between wavelengths for the dual-wavelength monolith were tested for efficacy in an instrument-like configuration. Optical modeling and procurement of optical components was completed, making the Na unit nearly ready for lab tests with a low-pressure sodium source, and then appropriate Na-wavelength fluorophores. Atmospheric modeling showed the importance of both dealing with the Ring effect -- as it is at least equal to the fluorescence effect to be measured -- and selecting the best wavelength to observe to mitigate the effects of vegetative fluorescence and water vapor absorption. The full SHIELDS unit will be assembled and tested in March 2009, and the dual-wavelength monolith completed in May.

Citation Download Citation

S. Watchorn, J, Noto, J. Anderson, and C, E. Sioris "Optical and engineering development of the spatial heterodyne interferometer for emergent line discrimination spectroscopy (SHIELDS)", Proc. SPIE 7310, Non-Intrusive Inspection Technologies II, 731002 (30 April 2009); https://doi.org/10.1117/12.818670

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KEYWORDS

Sodium

Luminescence

Reflectors

Absorption

Magnesium

Charge-coupled devices

Cameras

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