缩放
光学
色差
色阶
视野
偏转(物理)
棱镜
计算机科学
望远镜
图像分辨率
自适应光学
物理
计算机视觉
镜头(地质)
作者
Lin Li,Na Xie,Jia-Qi Li,Jing-Yi Fu,Shubin Liu,Lihui Wang,Yuhai Li,Lei Li
出处
期刊:Optics Express
[Optica Publishing Group]
日期:2023-07-06
卷期号:31 (15): 25117-25117
被引量:5
摘要
Imaging systems are widely used in many fields. However, there is an inherent compromise between field of view (FOV) and resolution. In this paper, we propose an optofluidic zoom system with increased FOV and less chromatic aberration, which can realize switching between large FOV and high resolution. The proposed system consists of a liquid prism, a zoom objective, an image sensor and image processing module, which can realize optical zoom and deflection. The proposed system achieves non-mechanical optical zoom from f = 40.5 mm to f = 84.0 mm. Besides, the angular resolution of zoom objective is up to 26"18 at f = 84.0 mm. The deflection range is ±10°, and the whole FOV of proposed system can reach up to 30.3°. The proposed system is compact and easy to machine. In addition, we reduce chromatic aberration produced by the liquid prism significantly. The proposed system can be used in monitor system, target tracking system, telescope system and so on.
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