Stray light analysis and suppression of rigid endoscope system

YU Lu; CHENG De-wen; ZHOU Wei; WANG Yong-tian; LIU Xiao-hua

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Stray light analysis and suppression of rigid endoscope system

Modern Applied Optics | 更新时间：2020-08-13

- Stray light analysis and suppression of rigid endoscope system
- Optics and Precision Engineering Vol. 22, Issue 3, Pages: 525-532(2014)
- 作者机构：
  
  北京理工大学光电学院北京,100081
- 作者简介：
- 基金信息：
- DOI：
  CLC： TH776.1
- Published：25 March 2014
- 稿件说明：
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禹璐,程德文,周伟等. 硬性内窥镜光学系统的杂散光分析与抑制[J]. 光学精密工程, 2014,22(3): 525-532

YU Lu, CHENG De-wen, ZHOU Wei etc. Stray light analysis and suppression of rigid endoscope system[J]. Editorial Office of Optics and Precision Engineering, 2014,22(3): 525-532
禹璐,程德文,周伟等. 硬性内窥镜光学系统的杂散光分析与抑制[J]. 光学精密工程, 2014,22(3): 525-532 DOI：

YU Lu, CHENG De-wen, ZHOU Wei etc. Stray light analysis and suppression of rigid endoscope system[J]. Editorial Office of Optics and Precision Engineering, 2014,22(3): 525-532 DOI：

摘要

基于光学系统结构研究了硬性内窥镜光学系统内部杂散光的成因及抑制方法

以提高其成像效果。通过Lighttools软件进行光线追迹

分析了硬性内窥镜光机结构的杂散光;通过杂光路径分析

提出光线在中继系统和物镜组中发生全反射是硬性内窥镜存在杂散光的原因

由此研究了相应的杂散光抑制方法:即调整物镜组结构控制系统中光线传播的路径

并在光学系统优化过程中加入相应的控制条件。最后

采用提出的方法设计了视场角为70

透镜直径为2.7 mm的高成像性能消杂散光硬性关节镜。验证实验显示

研制的硬性内窥镜光学系统在100 lp/mm 处各视场的调制传递函数(MTF)值均在0.4以上

逼近衍射极限。光线追迹结果表明

在物镜组中消除杂散光可避免光线在棒镜内壁全反射

完全消除杂散光并保证良好的像质。

Abstract

On the structure of optical system

the causes of stray light of a rigid endoscope and its suppression methods were explored to eliminate the stray light and to improve its imaging performance. Firstly

the stray light in the optical and mechanical system was simulated and analyzed by ray tracing in Lighttools. By analysis of the stray light path

it points out that the stray light of the optical system comes from the total reflection of a relay system and an objective system. Then

with the possible causes

the suppression methods for the stray light were proposed

including adjusting objective structure and controlling ray path. Finally

a rigid arthroscopy with a Field of View(FOV) of 70 and an outer diameter of 2.7 mm was designed to suppress the stray light. With proposed methods

the Modulation Transfer Function(MTF) reaches diffraction limit

the values of all fields are higher than 0.4 at 100 lp/mm

and the size of spot diagram is smaller than 4 m. Besides the high-definition imaging

simulation demonstrates that the stray light has been moved out entirely in the optical system

and the system shows excellent imaging quality.

关键词

Keywords

references

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