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Compact, transmissive two-dimensional spatial disperser design with application in simultaneous endoscopic imaging and laser microsurgery

机译:紧凑的透射式二维空间分散器设计,可同时用于内窥镜成像和激光显微外科手术

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摘要

Minimally invasive surgery procedures benefit from a reduced size of endoscopic devices. A prospective path to implement miniaturized endoscopy is single optical-fiber-based spectrally encoded imaging. While simultaneous spectrally encoded inertial-scan-free imaging and laser microsurgery have been successfully demonstrated in a large table setup, a highly miniaturized optical design would promote the development of multipurpose endoscope heads. This paper presents a highly scalable, entirely trans-missive axial design for a spectral 2D spatial disperser. The proposed design employs a grating prism and a virtual imaged phased array (VIPA). Based on semi-analytical device modeling, we performed a systematic parameter analysis to assess the spectral disperser's manufacturability and to obtain an optimum application-specific design. We found that, in particular, a low grating period combined with a high optical input bandwidth and low VIPA tilt showed favorable results in terms of a high spatial resolution, a small device diameter, and a large field of view. Our calculations reveal that a reasonable imaging performance can be achieved with system diameters of below 5 mm, which renders the proposed 2D spatial disperser design highly suitable for use in future endoscope heads that combine mechanical-scan-free imaging and laser microsurgery.
机译:微创手术程序受益于减小内窥镜设备的尺寸。实现小型内窥镜检查的预期途径是基于单根光纤的光谱编码成像。虽然已经在大型工作台中成功演示了同时进行光谱编码的无惯性扫描成像和激光显微外科手术,但高度小型化的光学设计将促进多功能内窥镜头的发展。本文提出了一种用于光谱二维空间色散器的高度可扩展的,完全透射的轴向设计。提出的设计采用光栅棱镜和虚像相控阵(VIPA)。在半分析设备建模的基础上,我们进行了系统的参数分析,以评估光谱分散器的可制造性并获得针对特定应用的最佳设计。我们发现,特别是在高空间分辨率,小设备直径和大视野方面,低光栅周期与高光输入带宽和低VIPA倾斜相结合显示了令人满意的结果。我们的计算表明,在系统直径小于5 mm的情况下可以实现合理的成像性能,这使得建议的2D空间分散器设计非常适合在结合了无机械扫描成像和激光显微外科技术的未来内窥镜头中使用。

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