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Proceedings Paper

Ground-based demonstration of imaging SWIR-FTS for space-based detection of air pollution and greenhouse gases
Author(s): Tadashi Imai; Jumpei Murooka; Akihiko Kuze; Hiroshi Suto; Ryota Sato
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Paper Abstract

Fourier transform spectrometer (FTS) has many advantages, especially for greenhouse gases and air pollution detection in the atmosphere, because a single instrument can provide wide spectral coverage and high spectral resolution with highly stabilized instrumental line function for all wavenumbers. Several channels are usually required to derive the column amount or vertical profile of a target species. Near infrared (NIR) and shortwave infrared (SWIR) spectral regions are very attractive for remote sensing applications. The GHG and CO of precursors of air pollution have absorption lines in the SWIR region, and the sensitivity against change in the amounts in the boundary layer is high enough to measure mole fractions near the Earth surface. One disadvantage of conventional space-based FTS is the spatial density of effective observation. To improve the effective numbers of observations, an imaging FTS coupled with a two-dimensional (2D)-camera was considered. At first, a mercury cadmium telluride (MCT)-based imaging FTS was considered. However, an MCT-based system requires a calibration source (black body and deep-space view) and a highly accurate and super-low temperature control system for the MCT detector. As a result, size, weight, and power consumption are increased and the cost of the instrument becomes too high. To reduce the size, weight, power consumption, and cost, a commercial 2D indium gallium arsenide (InGaAs) camera can be used to detect SWIR light. To demonstrate a small imaging SWIR-FTS (IS-FTS), an imaging FTS coupled with a commercial 2D InGaAs camera was developed. In the demonstration, the CH4 gas cell was equipped with an IS-FTS for the absorber to make the spectra in the SWIR region. The spectra of CH4 of the IS-FTS demonstration model were then compared with those of traditional FTS. The spectral agreement between the traditional and IS-FTS instruments was very good.

Paper Details

Date Published: 16 October 2013
PDF: 5 pages
Proc. SPIE 8889, Sensors, Systems, and Next-Generation Satellites XVII, 88890B (16 October 2013); doi: 10.1117/12.2028842
Show Author Affiliations
Tadashi Imai, Japan Aerospace Exploration Agency (Japan)
Jumpei Murooka, Japan Aerospace Exploration Agency (Japan)
Akihiko Kuze, Japan Aerospace Exploration Agency (Japan)
Hiroshi Suto, Japan Aerospace Exploration Agency (Japan)
Ryota Sato, Japan Aerospace Exploration Agency (Japan)

Published in SPIE Proceedings Vol. 8889:
Sensors, Systems, and Next-Generation Satellites XVII
Roland Meynart; Steven P. Neeck; Haruhisa Shimoda, Editor(s)

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