用于生物介质特性描述的自验证 Mueller 矩阵微视场显微镜 (SAMMM)。

Self validating Mueller matrix Micro-Mesoscope (SAMMM) for the characterization of biological media.

出版信息

Opt Lett. 2020 Apr 15;45(8):2168-2171. doi: 10.1364/OL.387747.

Abstract

Reflectance Mueller matrix (MM) polarimetry is being used to characterize biological media in multiple clinical applications. The origin of the reflectance polarimetric data is often unclear due to the impact of multiple scattering and tissue heterogeneity. We have developed a new, to the best of our knowledge, multimodal imaging technique combining MM reflectance, MM digital confocal imaging, and co-registered nonlinear microscopy techniques. The instrument unveils the origin of reflectance polarimetric signature in terms of confocal reflectance data. The reconstructed reflected MM demonstrates the capability of our method to provide depth-resolved 3D polarization response from complex biological media in terms of depolarization, retardance, and orientation parameters.

摘要

反射 Mueller 矩阵（MM）偏振光度法正被用于在多种临床应用中对生物介质进行特征分析。由于多次散射和组织异质性的影响，反射偏振数据的来源通常不明确。我们已经开发出一种新的多模态成像技术，该技术结合了 MM 反射率、MM 数字共焦成像和共配准的非线性显微镜技术。该仪器根据共焦反射数据揭示了反射偏振特性的来源。重建的反射 MM 表明，我们的方法能够提供复杂生物介质的深度分辨 3D 偏振响应，包括退偏度、延迟和方向参数。

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用于生物介质特性描述的自验证 Mueller 矩阵微视场显微镜 (SAMMM)。

Self validating Mueller matrix Micro-Mesoscope (SAMMM) for the characterization of biological media.

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