Enhanced background rejection in thick tissue using focal modulation microscopy with quadrant apertures

Ke Si; Wei Gong; Nanguang Chen; Colin J.R. Sheppard

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Enhanced background rejection in thick tissue using focal modulation microscopy with quadrant apertures

机译：使用象限孔径的聚焦调制显微镜增强厚组织中的背景排斥

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Image formation in focal modulation microscopy using quadrant apertures (QFMM) is presented. The spatial resolution is discussed: compared with confocal microscopy, QFMM can simultaneously enhance the axial and transverse resolution. In contrast to focal modulation microscopy using D-shaped apertures (DFMM), QFMM can maintain x-y symmetry of spatial resolution, thus causing less confusion in imaging interpretation. The capability of background rejection is investigated, showing QFMM has the potential to increase imaging penetration depth. The signal level is also analyzed, indicating that the preferred detector pinhole radius is greater than for DFMM, resulting in a higher signal level.

机译：提出了使用象限孔径（QFMM）的聚焦调制显微镜中的图像形成。讨论了空间分辨率：与共聚焦显微镜相比，QFMM可以同时提高轴向和横向分辨率。与使用D形孔（DFMM）的聚焦调制显微镜相比，QFMM可以保持空间分辨率的x-y对称性，从而在成像解释中减少混乱。研究了背景抑制的能力，表明QFMM具有增加成像穿透深度的潜力。还分析了信号电平，表明首选的探测器针孔半径大于DFMM，导致信号电平更高。

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来源
《Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter》 |2011年第5期|共6页
作者
Ke Si; Wei Gong; Nanguang Chen; Colin J.R. Sheppard;
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正文语种 eng
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关键词
Confocal microscopy; Axial resolution; Transverse resolution; Signal level; Quadrant apertures; Imaging penetration depth; Focal modulation microscopy;

机译：共聚焦显微镜;轴向分辨率;横向分辨率;信号水平;象限孔径;成像穿透深度;焦调制显微镜;

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1. Enhanced background rejection in thick tissue using focal modulation microscopy with quadrant apertures [J] . Ke Si, Wei Gong, Nanguang Chen, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2011,第5期

机译：使用象限孔径的聚焦调制显微镜增强厚组织中的背景排斥
2. Considerations of aperture configuration in focal modulation microscopy from the standpoint of modulation depth [J] . Guangjun Gao, Shau Poh Chong, Colin J. R. Sheppard, Journal of the Optical Society of America, A. Optics, image science, and vision . 2011,第4期

机译：从调制深度的角度考虑聚焦调制显微镜中的光圈配置
3. Analytic method to optimize aperture design in focal modulation microscopy [J] . Yubo Duan, Colin J. R. Sheppard, Shakil Rehman, Optics Letters . 2014,第6期

机译：聚焦调制显微镜中优化孔径设计的解析方法
4. Line-scan focal modulation microscopy for rapid imaging of thick biological specimens [C] . Shau Poh Chong, Guangjun Gao, Colin J.R. Sheppard, 2011 Asia Communications and Photonics Conference : Technical Abstracts . 2011

机译：线扫描聚焦调制显微镜用于厚生物样本的快速成像
5. Optically Sectioned Imaging of Microvasculature of In-Vivo and Ex-Vivo Thick Tissue Models with Speckle-illumination HiLo Microscopy and HiLo Image Processing Implementation in MATLAB Architecture. [D] . Suen, Ricky Wai. 2013

机译：使用斑点照明HiLo显微镜和HiLo图像处理在MATLAB体系结构中实现的体内和体外的厚组织模型的微脉管的光学切片成像。
6. Enhanced Background Rejection in Thick Tissue with Differential-Aberration Two-Photon Microscopy [O] . A. Leray, K. Lillis, J. Mertz 2008

机译：差分像差双光子显微镜在厚组织中增强背景排斥
7. Enhancing axial resolution and background rejection in line-scanning temporal focusing microscopy by focal modulation [O] . Yuanlong Zhang, Lingjie Kong, Hao Xie, 2018

机译：通过焦点调制增强线扫描时间聚焦显微镜中的轴向分辨率和背景抑制
8. OPTICAL TECHNIQUES FOR TARGET ENHANCEMENT AND BACKGROUND REJECTION. [R] . 1970

机译：用于目标增强和背景抑制的光学技术。

Enhanced background rejection in thick tissue using focal modulation microscopy with quadrant apertures

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