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多普勒编码激发模式断层光学显微镜。

Doppler encoded excitation pattern tomographic optical microscopy.

作者信息

Feldkhun Daniel, Wagner Kelvin H

机构信息

Electrical and Computer Engineering Department, Campus Box 425, University of Colorado at Boulder, Boulder, Colorado 80309, USA.

出版信息

Appl Opt. 2010 Dec 1;49(34):H47-63. doi: 10.1364/AO.49.000H47.

Abstract

Most far-field optical imaging systems rely on lenses and spatially resolved detection to probe distinct locations on the object. We describe and demonstrate a high-speed wide-field approach to imaging that instead measures the complex spatial Fourier transform of the object by detecting its spatially integrated response to dynamic acousto-optically synthesized structured illumination. Tomographic filtered backprojection is applied to reconstruct the object in two or three dimensions. This technique decouples depth of field and working distance from resolution, in contrast to conventional imaging, and can be used to image biological and synthetic structures in fluoresced or scattered light employing coherent or broadband illumination. We discuss the electronically programmable transfer function of the optical system and its implications for imaging dynamic processes. We also explore wide-field fluorescence imaging in scattering media by coherence gating. Finally, we present two-dimensional high-resolution tomographic image reconstructions in both scattered and fluoresced light demonstrating a thousandfold improvement in the depth of field compared to conventional lens-based microscopy.

摘要

大多数远场光学成像系统依靠透镜和空间分辨检测来探测物体上的不同位置。我们描述并演示了一种高速宽场成像方法,该方法通过检测物体对动态声光合成结构照明的空间积分响应来测量物体的复空间傅里叶变换。应用层析滤波反投影在二维或三维中重建物体。与传统成像相比,该技术将景深和工作距离与分辨率解耦,可用于在相干或宽带照明下对荧光或散射光中的生物和合成结构进行成像。我们讨论了光学系统的电子可编程传递函数及其对动态过程成像的影响。我们还通过相干选通探索了散射介质中的宽场荧光成像。最后,我们展示了散射光和荧光中的二维高分辨率层析图像重建,表明与传统基于透镜的显微镜相比,景深提高了一千倍。

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