A cooled long-wave infrared push-broom imaging spectrometer with an F-number of 2 was designed based on the Dyson configuration. A three-mirror off-axis aspherical optical system that provided excellent slit-shaped images was selected as the fore telescope objective. The re-imaging method was applied to obtain a cold stop efficiency of 100%, and the corrector lens in traditional Dyson imaging spectrometers was replaced with re-imaging lenses to correct spherical aberrations. The designed imaging spectrometer provided a spectral resolution of 25 nm at a range of 8-12 mu m and possessed a relatively small volume. (C) 2016 Elsevier B.V. All rights reserved.
Sun, L.,Y. Li,Q. Ren,et al. Toward Ultrahigh Red Light Responsive Organic FETs Utilizing Neodymium Phthalocyanine as Light Sensitive Material[J]. Ieee Transactions on Electron Devices,2016,63(1).
APA
Sun, L..,Y. Li.,Q. Ren.,W. L. Lv.,J. P. Zhang.,...&Y. Q. Peng and X. Y. Liu.(2016).Toward Ultrahigh Red Light Responsive Organic FETs Utilizing Neodymium Phthalocyanine as Light Sensitive Material.Ieee Transactions on Electron Devices,63(1).
MLA
Sun, L.,et al."Toward Ultrahigh Red Light Responsive Organic FETs Utilizing Neodymium Phthalocyanine as Light Sensitive Material".Ieee Transactions on Electron Devices 63.1(2016).
; Y. Li; Q. Ren; W. L. Lv; J. P. Zhang; X. Luo; F. Y. Zhao; Z. Chen; Z. W. Wen; J. K. Zhong; Y. Q. Peng and X. Y. Liu
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