AtmoCube A1: airglow measurements in the mesosphere and lower thermosphere by spatial heterodyne interferometry

Olschewski, Friedhelm; Rongen, Heinz; Riese, Martin; Mantel, Klaus; Neubert, Tom; Kaufmann, Martin; Koppmann, Ralf

doi:10.1117/1.JRS.13.024501

Items
Marc 21

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024	7	_	\|a 10.1117/1.JRS.13.024501 \|2 doi
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041	_	_	\|a English
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100	1	_	\|a Olschewski, Friedhelm \|0 P:(DE-Juel1)177834 \|b 0 \|e Corresponding author \|u fzj
245	_	_	\|a AtmoCube A1: airglow measurements in the mesosphere and lower thermosphere by spatial heterodyne interferometry
260	_	_	\|a Bellingham Wash. \|c 2019 \|b SPIE
336	7	_	\|a article \|2 DRIVER
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336	7	_	\|a Journal Article \|b journal \|m journal \|0 PUB:(DE-HGF)16 \|s 1558082949_16068 \|2 PUB:(DE-HGF)
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520	_	_	\|a The Institute for Atmospheric and Environmental Research at the University of Wuppertal and the Institute of Energy and Climate Research Stratosphere at Research Center Juelich developed a CubeSat payload for atmospheric research. The payload consists of a small interferometer for the observation of airglow near 762 nm. The line intensities of the oxygen A-band are used to derive temperatures in the mesosphere and lower thermosphere region. The temperature data will be used to analyze dynamical wave structures in the atmosphere. The interferometer technology chosen to measure the ro-vibrational structure of the O2 atmospheric band near 762 nm is a spatial heterodyne interferometer originally proposed by Connes in 1958. It can be designed to deliver extraordinary spectral resolution to resolve individual emission lines. The utilization of a two-dimensional imaging detector allows for recording interferograms at adjacent locations simultaneously. Integrated in a six-unit CubeSat, the instrument is designed for limb sounding of the atmosphere. The agility of a CubeSat will be used to sweep the line-of-sight through specific regions of interest to derive a three-dimensional image of an atmospheric volume using tomographic reconstruction techniques
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700	1	_	\|a Kaufmann, Martin \|0 P:(DE-Juel1)129128 \|b 1 \|u fzj
700	1	_	\|a Mantel, Klaus \|0 P:(DE-HGF)0 \|b 2
700	1	_	\|a Neubert, Tom \|0 P:(DE-Juel1)133921 \|b 3 \|u fzj
700	1	_	\|a Rongen, Heinz \|0 P:(DE-Juel1)133931 \|b 4 \|u fzj
700	1	_	\|a Riese, Martin \|0 P:(DE-Juel1)129145 \|b 5 \|u fzj
700	1	_	\|a Koppmann, Ralf \|0 P:(DE-HGF)0 \|b 6
773	_	_	\|a 10.1117/1.JRS.13.024501 \|g Vol. 13, no. 02, p. 1 - \|0 PERI:(DE-600)2382410-4 \|n 02 \|p 024501 \|t Journal of applied remote sensing \|v 13 \|y 2019 \|x 1931-3195
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Marc 21

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