Method and system of laser scanning phase-microscope imaging

Abstract

The invention relates to a method and a system of laser scanning phase-microscope imaging. The system comprises a fluorescence microscope, a laser confocal laser scanning system and a photoelectric detection system, wherein the laser confocal laser scanning system is arranged in a light inlet hole of the fluorescence microscope; the photoelectric detection system is arranged at a light outlet direction of the laser confocal laser scanning system; an angle between each adjacent optical elements is regulated; a sample slice is arranged on a testing table; a fluorescence medium is added on the top of a glass slide; after being focused and in beam expansion through a dichroscope, an X-directional scanning galvanometer, a Y-directional scanning galvanometer, a scanning mirror and a tube lens, exciting light generated by the laser launches to an object lens and is focused on a biological sample; the exciting light focused on the biological sample launches to the fluorescence medium through the biological sample; the fluorescence medium is excited by the exciting light so as to launch fluorescence; the fluorescence shines and returns along the original light path through the biological sample; the emergent fluorescence launches to a filter and is focused through a convergent lens so as to enter a needle hole; the fluorescence exited by the needle hole is received and processed through the photoelectric detection system so as to obtain a relief structure of the biological sample. The method and system provided by the invention can be widely used in an imaging process of the biological sample.

Description

technical field [0001] The invention relates to an optical imaging method and system, in particular to a laser scanning phase microscopic imaging method and system suitable for transparent biological tissue imaging. Background technique [0002] Laser scanning confocal microscopy technology uses the pinhole placed in front of the detector to effectively shield the impact of non-focal plane light on the imaging quality of the sample, and realize the imaging process of point scanning and point detection. The ability to transform information into intensity information, so non-fluorescence-labeled structural imaging of transparent biological samples cannot be performed, and it needs to be fused with other microscopic imaging methods to realize point-by-point scanning / detection methods for transparent biological samples. [0003] The microscopic imaging methods of biological tissue in the prior art mainly include: 1. The differential interference phase contrast microscopic imagin...

AI Technical Summary

Problems solved by technology

[0002] Laser scanning confocal microscopy technology uses the pinhole placed in front of the detector to effectively shield the impact of non-focus light on the imaging quality of the sample, and realize the imaging process of point scanning and point detection. The ability to transform information into intensity information, so non-fluorescence-labeled structural imaging of transparent biological samples cannot be performed, and it needs to be fused with other microscopic imaging methods to realize point-by-point scanning/detection methods for transparent biological samples

[0003] The microscopic imaging methods of biological tissue in the prior art mainly include: 1. The differential interference phase contrast microscopic imaging method uses two Wollaston Prisms (Wollaston Prism), a polarizer (Polarizer) and an analyzer (Analyzer), based on Wide-field polarized light is used to image transparent biological tissue, and the imaging result can present the relief-like structure of biological tissue, but the above-mentioned microscopic imaging method needs to add ...

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