Design of an LWIR snapshot Imaging spectropolarimeter

被引:3
作者
Aumiller, Riley W. [1 ]
Hagen, Nathan A. [1 ]
Dereniak, Eustace L. [1 ]
Sampson, Robert [2 ]
McMillan, Robert W. [3 ]
机构
[1] Univ Arizona, Coll Opt Sci, Tucson, AZ 85721 USA
[2] I Technol Applicat, Ann Arbor, MI 48103 USA
[3] US Army, Space & Missile Def Command, Huntsville, AL 35805 USA
来源
INFRARED DETECTORS AND FOCAL PLANE ARRAYS VIII | 2006年 / 6295卷
关键词
infrared; long wave infrared; polarization; spectrometer; imaging; spectropolarimetry;
D O I
10.1117/12.688404
中图分类号
TH7 [仪器、仪表];
学科分类号
0804 ; 080401 ; 081102 ;
摘要
This paper covers the design and construction of a snapshot imaging spectropolarimeter for use in the long wave infrared, 8 to 12 micron region. This imaging device is unique in the fact that system is nonscanning, contains no moving parts, and in a single integration period is able to record spectral data as well as the polarization state as a function of wavelength from every spatial location in a 21) image. The system is based on the Computed Tomographic Imaging Spectrometer, commonly referred to as CTIS, and has been modified to incorporate components of Channeled Spectropolarimetry. The paper presents an overview of how both the CTIS and the CTICS (Computed Tomographic Imaging Channeled Spectropolarimeter) systems work, details on the specific components used in the LWIR system, and preliminary results from a completed LWIR CTIS system, which is the first of its kind.
引用
收藏
页数:9
相关论文
共 50 条
[21]   SPECTRAL LWIR IMAGING FOR REMOTE FACE DETECTION [J].
Rosario, Dalton .
2011 IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM (IGARSS), 2011, :4419-4422
[22]   Refractive Optically Multiplexed LWIR Imaging System [J].
Landsiedel, Emma ;
Smeaton, Corrie ;
Shah, Vinay ;
Rachlin, Yaron ;
Shepard, R. Hamilton .
ADVANCED OPTICS FOR DEFENSE APPLICATIONS: UV THROUGH LWIR III, 2018, 10627
[23]   LWIR pupil imaging & prospects for background compensation [J].
LeVan, Paul ;
Sakoglu, Uenal ;
Stegall, Mark ;
Pierce, Greg .
INFRARED SENSORS, DEVICES, AND APPLICATIONS V, 2015, 9609
[24]   Optical design of a novel Wynne-Offner snapshot hyperspectral imaging system [J].
Tan, Fenli ;
Zeng, Chenxin ;
Ji, Yiqun .
OPTICAL DESIGN AND TESTING XI, 2021, 11895
[25]   MEMS tunable filters for LWIR spectral imaging [J].
DeNatale, J. F. ;
Borwick, R. ;
Stupar, P. ;
Gunning, W. ;
Kobrin, P. ;
Lauxtermarm, S. .
2007 IEEE/LEOS INTERNATIONAL CONFERENCE ON OPTICAL MEMS AND NANOPHOTONICS, 2007, :169-170
[26]   Germanium and silicon-based nanohole LWIR metalens design and fabrication [J].
Yilmaz, Nazmi ;
Nalbant, Halil Can ;
Balli, Fatih ;
Eren, Arda ;
Yelboga, Tolga ;
Sozak, Ahmet .
JOURNAL OF NANOPHOTONICS, 2023, 17 (01) :16006
[27]   Ultraspectral Imaging and the Snapshot Advantage [J].
Kudenov, Michael W. ;
Roy, Subharup Gupta ;
Pantalone, Brett ;
Maione, Bryan .
MICRO- AND NANOTECHNOLOGY SENSORS, SYSTEMS, AND APPLICATIONS VII, 2015, 9467
[28]   Tests of a compact static Fourier-transform imaging spectropolarimeter [J].
Li, Jie ;
Gao, Bo ;
Qi, Chun ;
Zhu, Jingping ;
Hou, Xun .
OPTICS EXPRESS, 2014, 22 (11) :13014-13021
[29]   Snapshot spectropolarimeter based on a six-fold separating prism operating from 360 nm to 1 μm [J].
Acher, Olivier ;
Nguyen, T. H. A. N. H. -LIeM ;
Villier, Brice ;
Melizzi, Geraldine ;
Lindberg, Arvid ;
Watkins, William l .
OPTICS EXPRESS, 2024, 32 (16) :27342-27357
[30]   A Fabry-Perot interferometric imaging spectrometer in LWIR [J].
Zhang Fang ;
Gao Jiaobo ;
Wang Nan ;
Wu Jianghui ;
Meng Hemin ;
Zhang Lei ;
Gao Shan .
SECOND INTERNATIONAL CONFERENCE ON PHOTONICS AND OPTICAL ENGINEERING, 2017, 10256
12345