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Long wave infrared (8 to 14 microns) hyperspectral imager based on an uncooled thermal camera and the traditional CI block interferometer (SI-LWIR-UC)

机译：基于未冷热热相机和传统的CI块干涉仪（SI-LWIR-UC）的长波红外（8至14微米）高光谱成像仪

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Since the early '90's CI has been involved in the development of FTIR hyperspectral imagers based on a Sagnac or similar type of interferometer. CI also pioneered the commercialization of such hyperspectral imagers in those years. After having developed a visible version based on a CCD in the early '90's (taken on by a spin-off company for biomedical applications) and a 3 to 5 micron infrared version based on a cooled InSb camera in 2008, it is now developing an LWIR version based on an uncooled camera for the 8 to 14 microns range. In this paper we will present design features and expected performance of the system. The instrument is designed to be rugged for field use, yield a relatively high spectral resolution of 8 cm-1, an IFOV of 0.5 mrad., a 640x480 pixel spectral cube in less than a minute and a noise equivalent spectral radiance of 40 nW/cm2/sr/cm-1 at 10μ. The actually measured performance will be presented in a future paper.

机译：自从90年代早期的CI基于SAGNAC或类似类型的干涉仪参与了FTIR高光谱成像仪的发展。 CI在那些年内也开创了这种超光照成像仪的商业化。在90年代早期的CCD（由生物医学应用的分拆公司采取的CCD开发了一个可见版本后，2008年基于冷却的内部摄像头的3至5微米红外版本，现在正在开发一个LWIR Version基于8至14微米范围的加工摄像头。在本文中，我们将呈现设计特征和预期的系统性能。该仪器设计用于现场使用，产生相对高的光谱分辨率为8cm-1，IFOV为0.5 mrad，在少于一分钟的640x480像素光谱多维数据集，噪声等同的光谱辐射为40nw / CM2 / SR / CM-110μ。实际测量的性能将在未来的纸张中呈现。

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《Conference on infrared technology and applications 》|2011年||共8页
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Dario Cabib Moshe Lavi Amir Gil and Uri Milman;
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中图分类红外技术及仪器 ;
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1. Single-image-based solution for optics temperature-dependent nonuniformity correction in an uncooled long-wave infrared camera [J] . Yanpeng Cao, Christel-Loic Tisse Optics Letters . 2014 ,第3期

机译：基于单图像的解决方案，用于在未冷却的长波红外摄像机中进行与温度相关的光学不均匀性校正
2. UNCOOLED THERMAL IMAGING HAS MASS-MARKET APPEAL: With these temperature-tuned thin-film filters, inexpensive CCD/CMOS cameras can sense thermal radiation wavelengths of 8 to 15 μm [J] . Mark David Electronic Design . 2005 ,第16期

机译：令人难以抗拒的热成像技术已赢得了市场的欢迎：有了这些温度可调的薄膜滤光片，廉价的CCD / CMOS摄像机可以感应8至15μm的热辐射波长
3. Micro-Scale Thermal Imaging of Organic and Polymeric Materials with Cooled and Uncooled Infrared Cameras [J] . J.Morikawa, E. Hayakawa, T. Hashimoto Advances in Optical Technologies . 2012 ,第Null期

机译：使用冷却和不冷却的红外热像仪对有机和聚合物材料进行微型热成像
4. Long wave infrared (8 to 14 microns) hyperspectral imager based on an uncooled thermal camera and the traditional CI block interferometer (SI-LWIR-UC) [C] . Dario Cabib, Moshe Lavi, Amir Gil, Infrared technology and applications XXXVII . 2011

机译：基于未冷却的热像仪和传统CI块干涉仪（SI-LWIR-UC）的长波红外（8至14微米）高光谱成像仪
5. Integrating visible, near infrared and short wave infrared hyperspectral and multispectral thermal imagery for geological mapping at Cuprite, Nevada. [D] . Chen, Xianfeng. 2005

机译：整合可见，近红外和短波红外高光谱和多光谱热成像仪，以进行内华达州库珀特的地质填图。
6. Application of Convolutional Neural Network-Based Feature Extraction and Data Fusion for Geographical Origin Identification of Radix Astragali by Visible/Short-Wave Near-Infrared and Near Infrared Hyperspectral Imaging [O] . Qinlin Xiao, Xiulin Bai, Pan Gao, 2020

机译：基于神经网络的应用基于神经网络的特征提取和数据融合来通过可见/短波近红外线和近红外高光谱成像进行地理原产地对地域原产地识别
7. Calibration of uncooled thermal infrared cameras [O] . H. Budzier, G. Gerlach 2015

机译：校准非制冷热红外摄像机
8. Uncooled long-wave infrared hyperspectral imaging [R] . 2006

机译：非制冷长波红外高光谱成像

Long wave infrared (8 to 14 microns) hyperspectral imager based on an uncooled thermal camera and the traditional CI block interferometer (SI-LWIR-UC)

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