| abstract |
The invention discloses a high-throughput optical tomography three-dimensional imaging system, comprising: a light beam modulation module, which is used for modulating a light beam into a modulated light beam that can be focused on the focal plane of the objective lens and can be diverged on the defocal plane of the objective lens; imaging A module, which is used for imaging the sample under the illumination of the modulated light beam under different pixels with a camera; an excision module, which is used for excising the imaged surface layer of the sample; a demodulation module, which is used for a sample strip in one surface layer. The sample image is demodulated to form an optical tomographic image, and the optical tomographic image of each sample strip of each surface layer is reconstructed into a three-dimensional image. The present invention divides the sample to form at least one surface layer, and separates the at least one surface layer to form at least one sample strip, which can realize the imaging of the entire sample by imaging each sample strip, and when multi-layer imaging cannot be performed The excision module cuts the imaged part to realize the imaging of any layer of the sample, and the imaging speed is high and the efficiency is high. |