Confocal-window telescope objective design in visible and long-wave infrared

Qing Lin; Weiqi Jin; Hong Guo; Yingzhao Zhang; Maozhong Li

doi:10.3788/AOS201232.0922005

Confocal-window telescope objective design in visible and long-wave infrared

Qing Lin^*, Weiqi Jin, Hong Guo, Yingzhao Zhang, Maozhong Li

^*Corresponding author for this work

School of Optics and Photonics

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

10 Citations (Scopus)

Abstract

Dual-band and multi-band imaging techniques get more and more attention of the national military. As a key part, dual-band optical systems, especially visible light/long-wave infrared (VIS/LWIR) wide-band imaging systems, become the focus of research. The dual-band imaging systems for several major structural forms, including reflective, catadioptric and refraction forms are analysed, and the composition and characteristics of the refraction form are introduced. For the shortcomings of the dual-band system, a VIS/LWIR common-window objective lens in the refraction form used in handheld field is designed. The system's main technical indicators are: 0.6-0.8 μm (VIS), 8-12 μm (LWIR), f́ _VIS=47 mm, f́ _IR=58 mm, 2ω=9.8°, F _VIS=2, F _IR=1.3. Design results meet all the indicators, and the image quality meets the requirements in both bands. The size of the entire optical system is about 51 mm×93 mm×136 mm, which is compact and practical.

Original language	English
Article number	0922005
Journal	Guangxue Xuebao/Acta Optica Sinica
Volume	32
Issue number	9
DOIs	https://doi.org/10.3788/AOS201232.0922005
Publication status	Published - Sept 2012

Keywords

Color fusion
Common-window
Confocal
Dual-band system
Optical design

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title = "Confocal-window telescope objective design in visible and long-wave infrared",

abstract = "Dual-band and multi-band imaging techniques get more and more attention of the national military. As a key part, dual-band optical systems, especially visible light/long-wave infrared (VIS/LWIR) wide-band imaging systems, become the focus of research. The dual-band imaging systems for several major structural forms, including reflective, catadioptric and refraction forms are analysed, and the composition and characteristics of the refraction form are introduced. For the shortcomings of the dual-band system, a VIS/LWIR common-window objective lens in the refraction form used in handheld field is designed. The system's main technical indicators are: 0.6-0.8 μm (VIS), 8-12 μm (LWIR), {\'f} VIS=47 mm, {\'f} IR=58 mm, 2ω=9.8°, F VIS=2, F IR=1.3. Design results meet all the indicators, and the image quality meets the requirements in both bands. The size of the entire optical system is about 51 mm×93 mm×136 mm, which is compact and practical.",

keywords = "Color fusion, Common-window, Confocal, Dual-band system, Optical design",

author = "Qing Lin and Weiqi Jin and Hong Guo and Yingzhao Zhang and Maozhong Li",

year = "2012",

month = sep,

doi = "10.3788/AOS201232.0922005",

language = "English",

volume = "32",

journal = "Guangxue Xuebao/Acta Optica Sinica",

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T1 - Confocal-window telescope objective design in visible and long-wave infrared

AU - Lin, Qing

AU - Jin, Weiqi

AU - Guo, Hong

AU - Zhang, Yingzhao

AU - Li, Maozhong

PY - 2012/9

Y1 - 2012/9

N2 - Dual-band and multi-band imaging techniques get more and more attention of the national military. As a key part, dual-band optical systems, especially visible light/long-wave infrared (VIS/LWIR) wide-band imaging systems, become the focus of research. The dual-band imaging systems for several major structural forms, including reflective, catadioptric and refraction forms are analysed, and the composition and characteristics of the refraction form are introduced. For the shortcomings of the dual-band system, a VIS/LWIR common-window objective lens in the refraction form used in handheld field is designed. The system's main technical indicators are: 0.6-0.8 μm (VIS), 8-12 μm (LWIR), f́ VIS=47 mm, f́ IR=58 mm, 2ω=9.8°, F VIS=2, F IR=1.3. Design results meet all the indicators, and the image quality meets the requirements in both bands. The size of the entire optical system is about 51 mm×93 mm×136 mm, which is compact and practical.

AB - Dual-band and multi-band imaging techniques get more and more attention of the national military. As a key part, dual-band optical systems, especially visible light/long-wave infrared (VIS/LWIR) wide-band imaging systems, become the focus of research. The dual-band imaging systems for several major structural forms, including reflective, catadioptric and refraction forms are analysed, and the composition and characteristics of the refraction form are introduced. For the shortcomings of the dual-band system, a VIS/LWIR common-window objective lens in the refraction form used in handheld field is designed. The system's main technical indicators are: 0.6-0.8 μm (VIS), 8-12 μm (LWIR), f́ VIS=47 mm, f́ IR=58 mm, 2ω=9.8°, F VIS=2, F IR=1.3. Design results meet all the indicators, and the image quality meets the requirements in both bands. The size of the entire optical system is about 51 mm×93 mm×136 mm, which is compact and practical.

KW - Color fusion

KW - Common-window

KW - Confocal

KW - Dual-band system

KW - Optical design

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JO - Guangxue Xuebao/Acta Optica Sinica

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Confocal-window telescope objective design in visible and long-wave infrared

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