Optical design for a spatial-spectral volume holographic imaging system

Paul J. Gelsinger-Austin; Yuan Luo; Jonathan M. Watson; Raymond K. Kostuk; George Barbastathis; Jennifer K. Barton; Jose M. Castro

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Optical design for a spatial-spectral volume holographic imaging system

机译：空间光谱体全息成像系统的光学设计

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The spatial-spectral holographic imaging system (S~2-VHIS) is a promising alternative to confocal microscopy due to its capabilities to simultaneously image several sample depths with high resolution. However, the field of view of previously presented S~2-VHIS prototypes has been restricted to less than 200 μm. We present experimental results of an improved S~2-VHIS design that has a field of view of ~1 mm while maintaining high resolution and dynamic range.

机译：空间光谱全息成像系统（S〜2-VHIS）是共聚焦显微镜的有希望的替代品，因为它具有同时对多个样品深度进行高分辨率成像的能力。但是，先前提出的S〜2-VHIS原型的视野已被限制为小于200μm。我们介绍了改进的S〜2-VHIS设计的实验结果，该设计的视野为〜1 mm，同时保持了高分辨率和动态范围。

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来源
《Optical engineering》 |2010年第4期|p.043001.1-043001.5|共5页
作者
Paul J. Gelsinger-Austin; Yuan Luo; Jonathan M. Watson; Raymond K. Kostuk; George Barbastathis; Jennifer K. Barton; Jose M. Castro;
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作者单位

The University of Arizona College of Optical Sciences Tucson, Arizona 85721;

Massachusetts Institute of Technology Department of Mechanical Engineering Cambridge, Massachusetts 02139;

Massachusetts Institute of Technology Department of Mechanical Engineering Cambridge, Massachusetts 02139;

The University of Arizona College of Optical Sciences Department of Electrical and Computer Engineering Tucson, Arizona 85721;

Massachusetts Institute of Technology Department of Mechanical Engineering Cambridge, Massachusetts 02139;

The University of Arizona College of Optical Sciences Department of Electrical and Computer Engineering Division of Biomedical Engineering Tucson, Arizona 85721;

The University of Arizona Department of Electrical and Computer Engineering Tucson, Arizona 85721;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
medical imaging; holography applications; optical system design; microscopes; confocal optics; holographic optical elements;

机译：医学影像;全息应用;光学系统设计;显微镜共焦光学全息光学元件;
入库时间 2022-08-18 01:00:12

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1. Optical design for a spatial-spectral volume holographic imaging system [J] . Paul J. Gelsinger-Austin Yuan Luo member spie Jonathan M. Watson Raymond K. Kostuk George Barbastathis Jennifer K. Barton member spie and Jose M. Castro Optical Engineering . 2010,第4期

机译：空间光谱体全息成像系统的光学设计
2. Laser-induced fluorescence imaging of subsurface tissue structures with a volume holographic spatial-spectral imaging system [J] . Yuan Luo, Paul J. Gelsinger-Austin, Jonathan M. Watson, Optics Letters . 2008,第18期

机译：体全息空间光谱成像系统对组织表面下组织的激光诱导荧光成像
3. Volume holographic spatial-spectral imaging systems [J] . Vyas Sunil, Chia Yu-Hsin, Luo Yuan Journal of the Optical Society of America, A. Optics, image science, and vision . 2019,第2期

机译：批量全息空间 - 光谱成像系统
4. Computational Holographic Imaging based on Volume Holographic Optical Element for Color Dispersion Free Holographic Virtual Display [C] . Yong Seok Hwang, Eun-Soo Kim International Conference on Information and Communication Technology Convergence . 2020

机译：基于卷全息光学元件的计算全息图形，用于彩色分散的自由度全息虚拟显示
5. Optical design of volume holographic imaging systems for microscopy. [D] . de Leon, Erich E. 2012

机译：体全息照相成像系统的光学设计。
6. Optical Design for a Spatial-Spectral Volume Holographic Imaging System [O] . Paul J. Gelsinger-Austin, Yuan Luo, Jonathan M. Watson, -1

机译：空间光谱卷全息成像系统的光学设计
7. Optical design for a spatial-spectral volume holographic imaging system [O] . Gelsinger-Austin, Paul J., Luo, Yuan, Watson, Jonathan Matthew, 2009

机译：空间光谱体全息成像系统的光学设计

Optical design for a spatial-spectral volume holographic imaging system

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