Quasi-collinear IR AOTF based on mercurous halide single crystals for spatio-spectral hyperspectral imaging

The paper aims to show the advantages of the infrared-optimised quasi-collinear AOTF (acousto-optic tunable filter) for the spatio-spectral hyperspectral imaging system. The optimisation process is presented based on the selected tetragonal anisotropic materials with exceptional optical and acousto-...

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Veröffentlicht in:	Optics express 2021-04, Vol.29 (9), p.12813-12832
Hauptverfasser:	Krauz, Lukáš, Páta, Petr, Bednář, Jan, Klíma, Miloš
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Sprache:	eng
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creator	Krauz, Lukáš Páta, Petr Bednář, Jan Klíma, Miloš
description	The paper aims to show the advantages of the infrared-optimised quasi-collinear AOTF (acousto-optic tunable filter) for the spatio-spectral hyperspectral imaging system. The optimisation process is presented based on the selected tetragonal anisotropic materials with exceptional optical and acousto-optical properties in IR (infrared) spectral region. These materials are further compared in terms of their features and suitability for AOTF design. The spectral resolution is considered as the main optimising parameter. Resulting from the analysis, the mercurous chloride (Hg Cl ) single crystal is selected as a representative of the mercurous halide family for the presentation of the quasi-collinear AOTF model operating in LWIR (long-wave infrared) spectral band. The overall parameters of the AOTF model such as spectral resolution, chromatic field of view, acoustic frequency, and operational power requirements are estimated and discussed in results.
doi_str_mv	10.1364/OE.420571
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title	Quasi-collinear IR AOTF based on mercurous halide single crystals for spatio-spectral hyperspectral imaging
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