Design of infrared optical system with special dome

Jun Chang; Li Ping Liu; De Wen Cheng; Nan Zhao

doi:10.3724/sp.j.1010.2009.00204

Design of infrared optical system with special dome

Jun Chang^*, Li Ping Liu, De Wen Cheng, Nan Zhao

^*Corresponding author for this work

School of Optics and Photonics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

An efficient approach of designing a special dome and its aberration corrector was presented. By using the method of Wassermann-Wolf differential equations, the optimum contour of the corrector was obtained through a macro program in commercial optical design software. This corrector reduces spherical aberration and coma which are introduced by the dome, thus it improves the imaging quality of the system. Actual program design of a special dome applying to infrared system was made based on the Wassermann-Wolf algorithm. It works in the spectrum of middle infrared with a field of view more than 3.5° and an F number of 1-2.5. A complex R-C form was adopted to make the final imaging quality meet the diffraction limit. The whole system satisfies the imaging requirements in the infrared wave band, and it has a high practical value.

Original language	English
Pages (from-to)	204-206+240
Journal	Hongwai Yu Haomibo Xuebao/Journal of Infrared and Millimeter Waves
Volume	28
Issue number	3
DOIs	https://doi.org/10.3724/sp.j.1010.2009.00204
Publication status	Published - Jun 2009

Keywords

Aberration corrector
Conformal optics
Dome
Infrared system
Wassermann-Wolf equations

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10.3724/sp.j.1010.2009.00204

Cite this

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title = "Design of infrared optical system with special dome",

abstract = "An efficient approach of designing a special dome and its aberration corrector was presented. By using the method of Wassermann-Wolf differential equations, the optimum contour of the corrector was obtained through a macro program in commercial optical design software. This corrector reduces spherical aberration and coma which are introduced by the dome, thus it improves the imaging quality of the system. Actual program design of a special dome applying to infrared system was made based on the Wassermann-Wolf algorithm. It works in the spectrum of middle infrared with a field of view more than 3.5° and an F number of 1-2.5. A complex R-C form was adopted to make the final imaging quality meet the diffraction limit. The whole system satisfies the imaging requirements in the infrared wave band, and it has a high practical value.",

keywords = "Aberration corrector, Conformal optics, Dome, Infrared system, Wassermann-Wolf equations",

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T1 - Design of infrared optical system with special dome

AU - Chang, Jun

AU - Liu, Li Ping

AU - Cheng, De Wen

AU - Zhao, Nan

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AB - An efficient approach of designing a special dome and its aberration corrector was presented. By using the method of Wassermann-Wolf differential equations, the optimum contour of the corrector was obtained through a macro program in commercial optical design software. This corrector reduces spherical aberration and coma which are introduced by the dome, thus it improves the imaging quality of the system. Actual program design of a special dome applying to infrared system was made based on the Wassermann-Wolf algorithm. It works in the spectrum of middle infrared with a field of view more than 3.5° and an F number of 1-2.5. A complex R-C form was adopted to make the final imaging quality meet the diffraction limit. The whole system satisfies the imaging requirements in the infrared wave band, and it has a high practical value.

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KW - Dome

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KW - Wassermann-Wolf equations

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Design of infrared optical system with special dome

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