表征聚焦于具有微观异质性的组织中的高斯光束和贝塞尔光束的光束转向和畸变。

Characterizing the beam steering and distortion of Gaussian and Bessel beams focused in tissues with microscopic heterogeneities.

作者信息

Chen Ye, Liu Jonathan T C

机构信息

Department of Biomedical Engineering, Stony Brook University (SUNY), Stony Brook, NY 11794 USA ; Department of Mechanical Engineering, University of Washington, Seattle, WA 98195 USA.

出版信息

Biomed Opt Express. 2015 Mar 17;6(4):1318-30. doi: 10.1364/BOE.6.001318. eCollection 2015 Apr 1.

DOI:10.1364/BOE.6.001318

PMID:25909015

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4399670/

Abstract

Bessel beams have recently been investigated as a means of improving deep-tissue microscopy in highly scattering and heterogeneous media. It has been suggested that the long depth-of-field and self-reconstructing property of a Bessel beam enables an increased penetration depth of the focused beam in tissues compared to a conventional Gaussian beam. However, a study is needed to better quantify the magnitude of the beam steering as well as the distortion of focused Gaussian and Bessel beams in tissues with microscopic heterogeneities. Here, we have developed an imaging method and quantitative metrics to evaluate the motion and distortion of low-numerical-aperture (NA) Gaussian and Bessel beams focused in water, heterogeneous phantoms, and fresh mouse esophagus tissues. Our results indicate that low-NA Bessel beams exhibit reduced beam-steering artifacts and distortions compared to Gaussian beams, and are therefore potentially useful for microscopy applications in which pointing accuracy and beam quality are critical, such as dual-axis confocal (DAC) microscopy.

摘要

贝塞尔光束最近被作为一种改善在高散射和异质介质中的深层组织显微镜检查的手段进行了研究。有人提出，与传统高斯光束相比，贝塞尔光束的长景深和自重建特性能够使聚焦光束在组织中的穿透深度增加。然而，需要进行一项研究，以更好地量化光束转向的幅度以及聚焦高斯光束和贝塞尔光束在具有微观异质性的组织中的畸变。在此，我们开发了一种成像方法和定量指标，以评估聚焦在水、异质体模和新鲜小鼠食管组织中的低数值孔径（NA）高斯光束和贝塞尔光束的运动和畸变。我们的结果表明，与高斯光束相比，低NA贝塞尔光束表现出减少的光束转向伪像和畸变，因此对于指向精度和光束质量至关重要的显微镜应用（如双轴共聚焦（DAC）显微镜）可能是有用的。

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