通过超薄探针对光进行相干操作的内镜成像综述

Jaeyeon Oh, C. Lee, Gookho Song, Mooseok Jang
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引用次数: 0

摘要

摘要内窥镜是一种通过管状仪器观察内部组织微观结构的技术,管状仪器可以通过体内的小切口或开口插入。在保持高分辨率以实现实时组织病理学诊断的同时,小型化内窥镜仪器的需求日益增长。与此同时,最近在光的相干操纵方面取得了巨大进展,其中光波通过线性,无序介质进行光学聚焦和成像的确定性操纵。在这里,我们回顾了最近在开发基于光纤的相干配方和操作的新的内镜成像方案方面的研究成果。与使用光纤作为光功率的非相干通道的传统方案相比,这些方法提供了一种充分利用通过超薄探针传输的有用信息的途径,从而有可能通过亚毫米厚的探针实现实际的内窥镜成像。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Review of endomicroscopic imaging with coherent manipulation of light through an ultrathin probe
Abstract. Endomicroscopy is a technique to visualize microscopic structures of internal tissues through tubular instruments that can be inserted through a small cut or an opening in the body. There has been a growing demand for miniaturizing endoscopic instruments while preserving a high resolution to achieve a real-time histopathologic diagnosis. Meanwhile, there has recently been tremendous progress in the coherent manipulation of light in which an optical wave is deterministically manipulated through a linear, disordered medium for optical focusing and imaging. Here, we review recent research efforts in developing new endomicroscopic imaging schemes based on the coherent formulation and manipulation of optical fibers. In contrast to the conventional schemes using optical fibers as incoherent channels for optical power, these approaches provide a route to fully exploiting useful information transmitted through an ultrathin probe, thereby potentially achieving practical endomicroscopic imaging through a submillimeter thick probe.
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