应用于大视场生物成像分析仪的离轴三反显微物镜设计  

Objective lens design with off-axis three-mirror system for large field of view biological imaging analyzer

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作  者:刘广兴 张洋[2] 朱海龙 尹焕才 唐玉国[1,2] LIU Guang-xing;ZHANG Yang;ZHU Hai-long;YIN Huan-cai;TANG Yu-guo(College of Biomedical Engineering,University of Science and Technology of China,Hefei 230026,China;Suzhou Institute of Biomedical Engineering Technology,Chinese Academy of Sciences,Suzhou 215163,China)

机构地区:[1]中国科学技术大学生物医学工程学院,安徽合肥230026 [2]中国科学院苏州生物医学工程技术研究所,江苏苏州215163

出  处:《中国光学》2021年第5期1177-1183,共7页Chinese Optics

基  金:国家重点研发计划项目(No.2017YFF0108603);吉林省与中国科学院科技合作高技术产业化专项资金项目(No.2020SYHZ0027);苏州市民生科技项目(No.SYS2018101)。

摘  要:大视场生物成像分析仪能够满足对于稀有细胞和痕量病原微生物等待测样本量大,目标物稀少情况下的快速和准确检测需求,在生命科学、食品药品检测、环境安全等领域中有极其重要的作用。针对其核心部分,本文以同轴三反成像理论为基础,采用视场离轴的方式设计了离轴三反显微物镜,并进行光学仿真分析。该系统光谱范围为350~1 100nm、放大倍数β=-1,视场范围为150 mm×20 mm,数值孔径为0.1,点列图直径的均方根小于3.5μm,在空间截止频率178 lp/mm处,全视场的MTF均值大于0.35,畸变为0。实验结果表明:该成像系统视场大、分辨率高,大视场生物成像分析仪系统检出率为98%。本文设计的离轴三反显微物镜成像质量良好,可满足应用需求。The large field of view bio-imaging analyzer can quickly and accurately detect rare cells and trace pathogenic microorganisms, playing an extremely important role in life sciences, food and drug testing, environmental safety, etc.. Based on the theory of coaxial three-mirror imaging, a large field of view biological imaging analyzer was designed by means of an coaxial three-dimensional objective lens as the core component for imaging analysis. It has a spectral range of 350~1 100 nm, a magnification β=-1, a field of view of150 mm×20 mm and NA=0.1. The root mean square of the dot column diameter is less than 3.5 μm. At the178 lp/mm spatial cutoff frequency, the MTF mean of the full field of view is greater than 0.35 and the distortion is zero. The imaging system has a large field of view and high resolution, and the detection rate of the biological imaging analyzer system with a large field of view is 98%. The proposed objective lens is of good quality and can meet the application requirements.

关 键 词:大视场 离轴三反 高分辨 微生物检测 

分 类 号:TH742.65[机械工程—光学工程]

 

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