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The design and simulation of a novel ring multi-pass optical cell for detection of environmental trace gas
期刊论文
OPTIK, 2021, 卷号: 227
作者:
Cao, Ya-nan
;
Cheng, Gang
;
Tian, Xing
;
Wang, Gun-Shi
;
Cao, Yuan
收藏
  |  
浏览/下载:31/0
  |  
提交时间:2021/06/15
Ring multi-pass optical cell
Design and simulation
Long optical length
Design and simulation of a multipass cell consisting of two plane mirrors and a biconvex lens
期刊论文
OPTICAL ENGINEERING, 2020, 卷号: 59
作者:
Cao, Yanan
;
Cheng, Gang
;
Wang, Guishi
;
Tian, Xing
;
Li, Li
收藏
  |  
浏览/下载:11/0
  |  
提交时间:2020/11/26
plane multipass cell
design and simulation
long optical length
inexpensive
Design of a long focal length mid-wavelength infrared optical system
会议论文
Nanjing, PEOPLES R CHINA, 2017-10-24
作者:
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  |  
浏览/下载:34/0
  |  
提交时间:2018/07/05
Long Focal Length
Optical Design
Infrared Technology
Refractive Structure
Design of the real-time autofocusing system for collimator with long focus length and large aperture (EI CONFERENCE)
会议论文
2011 International Academic Conference on Numbers, Intelligence, Manufacturing Technology and Machinery Automation, MAMT 2011, December 24, 2011 - December 25, 2011, Wuhan, China
Li X.
;
Zhang X.
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  |  
浏览/下载:34/0
  |  
提交时间:2013/03/25
Large aperture collimator which has been widely used for calibrating and testing various optical devices plays an essential role in correlative laboratories. As being the basic testing and calibration equipment
the large aperture collimator's accuracy should be much higher than the device under testing in order to ensure the accuracy of the measurement. However
the process of adjusting the collimator is extremely complicated due to the collimator's large aperture and long focal length. So it is difficult to ensure the measurement's quality and easy to cause the system being vulnerable to the surrounding environment. One of the most common problems is defocus. In order to solve the problem above
this issue presents a new type of autocollimator autofocusing system which uses pentaprism instead of using large-aperture plane mirror
semiconductor lasers as light source and CCD sensor as receiver. The system is smaller
lighter
and more convenient when using. The computer simulation shows that the autofocusing system's resolution could reach the accuracy of 40m. If we use the relevant algorithms to execute the sub-pixel scanning
the resolution could reach the accuracy of 10m. It shows that the system could satisfy the required testing precision of testing large aperture optical device.
Design of reimaging F/1.0 long-wavelength infrared optical system (EI CONFERENCE)
会议论文
International Symposium on Photoelectronic Detection and Imaging 2011: Advances in Infrared Imaging and Applications, May 24, 2011 - May 24, 2011, Beijing, China
Zhang X.
;
Liu B.
;
Jia H.-G.
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  |  
浏览/下载:27/0
  |  
提交时间:2013/03/25
A reimaging F/1.0 long-wavelength infrared optical system is proposed. The design has a flexible opto-mechanical layout. The design process is as follows. Firstly
the catadioptric reimaging system consists of two reflecting mirrors and a relay lenses. Two reflecting mirrors make up of the first imaging system and are therefore free of chromatic aberrations
while low dispersion lenses were used in the reimaging system
so the optical system do not need achromatic design for a high image quality. Then
to correct high-order aberrations resulting from large relative aperture
more parameters need to be used with aspheric or diffractive surfaces due to modern optic technology development. Here
aspheric is selected for easily manufacture. Finally
the design is completed with the help of ZEMAX software. The effective focal length of the objective is 120mm and the field of view (FOV) is 4. The simulated final design shows adequate image quality and the modulation transfer function (MTF) is close to diffraction limit. The effect of the surrounding environmental temperature is analyzed using the concept of thermal defocusing
and the thermal compensation is discussed. 2011 Copyright Society of Photo-Optical Instrumentation Engineers (SPIE).
The application of diagnostic equipment in the Tokamak fusion reaction (EI CONFERENCE)
会议论文
2011 International Conference on Optical Instruments and Technology: Optical Systems and Modern Optoelectronic Instruments, November 6, 2011 - November 9, 2011, Beijing, China
Zhang B.-S.
;
Chang J.
;
Gong X.-Z.
;
Gan J.-F.
;
Feng S.-L.
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  |  
浏览/下载:11/0
  |  
提交时间:2013/03/25
This paper introduces the infrared optical system in the Tokamak fusion reaction device. In this optical system
3.the relay group lenses. This paper describes the decrease of the modulation transfer function (MTF) when the temperature changes and how to compensate the decrease of the MTF in order to maintain the image quality in a high level. As a result
the traditional optical structure can't meet the requirements
2.the Cassegrain system
the image quality of this optical system can reach the requirements when the temperature changes. 2011 Copyright Society of Photo-Optical Instrumentation Engineers (SPIE).
because the length of the infrared optical system in the Tokamak is very long. The design of optical system in the detection facility includes three parts:1.the combination of the concave aspheric mirror and flat mirror
Long focal length large-aperture switch-zoom system design
会议论文
international symposium on photoelectronic detection and imaging 2011: advances in imaging detectors and applications, beijing, china, may 24, 2011 - may 26, 2014
WangYan-Bin
;
DuanJing
;
JinHu-Min
;
JiangKai
;
ZhangHeng-Jin
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  |  
浏览/下载:24/0
  |  
提交时间:2012/07/09
long focal length
large-aperture
switch-zoom
NA
Optical design
Dynamic closed-loop test for real-time drift angle adjustment of space camera on the Earth (EI CONFERENCE)
会议论文
5th International Symposium on Advanced Optical Manufacturing and Testing Technologies: Optical Test and Measurement Technology and Equipment, April 26, 2010 - April 29, 2010, Dalian, China
Hu J.
;
Cao X.
;
Wang D.
;
Wu W.
;
Xu S.
收藏
  |  
浏览/下载:23/0
  |  
提交时间:2013/03/25
In order to eliminate the influence of aircraft attitude angle to the image quality of space camera
and assure that the drift angle of space camera could be accurately adjusted at the orbit
a novel closed-loop test method is provided for real-time drift angle adjustment of space camera on the Earth. A long focal length dynamic aim generator is applied to simulate the image motion and the variety drift angle
and to detect the precision of the image motion compensation machinery and the capability of the drift angle control system. The computer system is used to control the dynamic aim generator
accomplish the data processing
transmit and receive the data information. The seamless connection and the data transmission between the aim generator and the aircraft simulation devices are constituted. The command
parameter and drift angle data transmitted by the simulation devices are received by the space camera at the real time
then the photos are taken and the draft angle is adjusted simultaneously. It is shown that the drift angle can be accurately tracked by the space camera at the real time
and the detective method satisfies the test requirement. 2010 Copyright SPIE - The International Society for Optical Engineering.
Method for computer-aided alignment of complex optical system (EI CONFERENCE)
会议论文
2nd International Symposium on Advanced Optical Manufacturing and Testing Technologies: Optical Test and Measurement Technology and Equipment, November 2, 2005 - November 5, 2005, Zian, China
Yang X.
;
Han C.
;
Yu J.
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  |  
浏览/下载:19/0
  |  
提交时间:2013/03/25
For making complex optical system meet the design requirement
such as the space camera used in remote sensing and UVX lithophotography
especially for off-axis all-reflecting optical system
alignment technology is so necessary. In this paper
a method is presented. Based on the ideas of linearity instead of non-linearity and difference quotient instead of differential quotient
a mathematical model for computer-aided alignment is proposed. This model included the characteristics of the optical system
wavefront difference of its exit pupil and its misalignment of the misaligned optical system. Then comparing self-compiled software with alignment package of CODE V
as a result
this self-compiled software is much more valid than alignment package of CODE V. For a large aperture
long focal length and off-axis three-mirror optical system
computer-aided alignment is successful. Finally
the wavefront error of the middle field is 0.094 waves RMS and the wavefront error of +0.7 field is 0.106 waves RMS and the wavefront error of -0.7 field is 0.125 waves RMS at =632.8nm are obtained.
Developing of in-suit long trance profiler for testing slope error of aspherical optical Elements (EI CONFERENCE)
会议论文
ICO20: Optical Devices and Instruments, August 21, 2005 - August 26, 2005, Changchun, China
Zhou C.
;
Li H.
;
Chen C.
;
Zhou C.
;
Qian S.
收藏
  |  
浏览/下载:25/0
  |  
提交时间:2013/03/25
Profile error of super smooth surface of optical elements at X-ray/EUV in synchrotron radiation (SR) light beam line is described as slope error of them generally. The Long Trace Profiler (LPT) is used for testing surface slope error of SR optical elements in world generally. It is requisite to use In-suit LTP measuring surface thermal distortion of SR optical elements with high heat under high bright SR source. Authors design an In-suit LTP by means of co-path interferometer with pencil light beam. The instrument not only can be used for testing slope error of mirrors in Lab. also in situation test the distortion of mirror with high heat load at synchrotron light beam line. The device can be used to test various absolute surface figures of optical elements such as aspherieal
spherical and plane. It is needless standard reference surface. It is named by LTP-III. This paper describes its basic operating principle
optical system
mechanical constructions
DC serve motor control system
array detector
data acquisition system and computer system for controlling and data analysis of LTP-III. The Instrument has advantages of high accuracy
low cost
multifunction and wide application. Length of surface measured of optical element accuracy is 0.04 arcsec.
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