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Digital micro-lens components based interference-free parallel OCT imaging method and system

A technology of digital micromirror devices and imaging methods, applied in microscopes, instruments, optical components, etc., can solve problems such as limiting detection sensitivity and image acquisition speed, crosstalk, and low energy

Inactive Publication Date: 2007-03-07
ZHEJIANG UNIV
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Problems solved by technology

Too low energy limits detection sensitivity and image acquisition speed
[0006] Therefore, among the two illumination methods of the parallel OCT imaging system, the spatially coherent illumination formed by the broadband point light source can provide each detection point with higher energy, which can achieve high detection sensitivity and fast image acquisition, but the difference between each detection channel Crosstalk will occur; while spatial incoherent lighting based on thermal light sources avoids crosstalk, but the energy provided to each detection point is very low, which limits detection sensitivity and image acquisition speed

Method used

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  • Digital micro-lens components based interference-free parallel OCT imaging method and system
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  • Digital micro-lens components based interference-free parallel OCT imaging method and system

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Embodiment Construction

[0047] Below in conjunction with accompanying drawing and embodiment the present invention will be further described:

[0048] The DMD-based crosstalk-free parallel OCT imaging system is shown in Figure 1. The light emitted by the broadband point light source 1 is collimated by the collimator lens 2, and then enters the DMD3 parallel to the direction at an angle of 24° to the normal of the DMD3. The light reflected by the micromirror in the DMD3 in the "on" state of +12°, exits along the normal direction of the DMD3, and is divided into transmitted light and reflected light after passing through the lens 4 and the broadband beam splitter 5: the transmitted light is captured by the microscopic objective lens 6 is focused on the reference mirror 8, and the reference mirror 8 is fixed on the piezoelectric ceramic driver 10, and the microscopic objective lens 6 and the piezoelectric ceramic driver 10 are fixed on the first electric control translation stage 11; the reflected light ...

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Abstract

This invention discloses one parallel optical coherent tomography method and system without crosstalk based on digital micro deice, which adopts wide band point source to realize shining, wherein, the light path adds one DMD and optical system design ensures the equivalent size of the level size on the sample conjugate surface and the level size of the system resolution sample; the micro lens is at 12 degrees at open status to lead the relative part into interference system; the DMD coding changes parallel status of the images to depress biological body imaging of fixed signal series; extracting interference signals by the four step integration detection method of sine phase modulation technique.

Description

technical field [0001] The invention relates to a method and system for suppressing crosstalk of parallel optical coherence tomography, in particular to a method and system for suppressing crosstalk of parallel optical coherence tomography based on a digital micromirror device. Background technique [0002] Optical coherence tomography (OCT) is a tomographic imaging technology developed in recent years, which can realize non-contact, non-invasive, high-resolution imaging of the structure and physiological functions of living tissues. It is widely used in diagnosis and will also play an important role in materials science and basic research. [0003] Compared with point-by-point imaging, parallel imaging of OCT has the following advantages: 1. It does not require fast mechanical scanning movement like point-by-point imaging, and mechanical stability can be guaranteed; 2. All pixels in an image are collected synchronously , can avoid false images caused by periodic life rhyth...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G02B21/00
Inventor 丁志华杨亚良刘旭
Owner ZHEJIANG UNIV
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