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Wavelength scanning confocal micro-displacement measurement device and method

A wavelength scanning and measurement device technology, applied in the field of precision measurement, can solve the problems of inability to realize fast and precise scanning, high cost of large-stroke precision displacement, confocal microscope imaging and measurement speed limitations, etc., to avoid mechanical movement or disturbance, The effect of flexible design and light structure

Active Publication Date: 2017-05-31
XI AN JIAOTONG UNIV
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Problems solved by technology

The above two types of methods rely on precision mechanical movement to achieve scanning, so the imaging and measurement speed of the confocal microscope are greatly limited, and the cost of large-stroke precision displacement is high. Neither of these two types of methods can achieve fast and precise scanning along the axial plane.

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  • Wavelength scanning confocal micro-displacement measurement device and method
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Embodiment Construction

[0028] The implementation of the present invention will be described in detail below in conjunction with the drawings and examples.

[0029] like figure 1 As shown, a wavelength-scanning confocal micro-displacement measuring device of the present invention has the working principle of its optical path system: a laser beam emitted by a wavelength-tunable laser 1 is focused by a converging lens 2, filtered by an illumination pinhole 3, and then collimated The lens 4 is collimated to form a parallel beam, and then reflected by the beam splitter 5. The reflected beam is converged by the binary structure Fresnel zone plate 6 to provide point illumination. Near the focal plane of the zone plate 6, the light beam reflected by the plane mirror or the sample 7 to be tested is transmitted by the beam splitter 5, converged by the collecting objective lens 8, filtered by the confocal detection pinhole 9, and finally passed by the photodetector 10 to receive and output a valid signal.

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Abstract

The invention provides a wavelength scanning confocal micro-displacement measurement device and a method. In a confocal microscope optical path system, a wavelength tunable laser is used for carrying out illumination; a Fresnel zone plate is used for carrying out focus point illumination; according to the axial color difference focal shift characteristic, axial scanning of focus light spots is achieved through wavelength scanning; a confocal pinhole photoelectric detection unit is used for detecting confocal axial optical chromatography response output; for the disperse wavelength lambda<n> = lambda<min> + (n-)deltalambda, n = 1, 2, ..., 11, obtaining the axial optical chromatography displacement-intensity response, wherein the lambda<min> is the wavelength lower limit, the wavelength upper limit is lambda<max> = lambda<min> + 10deltalambda, and the deltalambda is the wavelength stepping interval; peak value positions of the optical chromatography response curves form a linear calibration relation searching table of illumination wavelengths and axial displacement; and fine wavelength scanning is executed for each characteristic point of a to-be-measured sample for once, and actual displacement of each point is calculated according to the peak value of each response curve and the searching table. Thus, measurement of micro-displacement or relative height is finished, and the method is suitable for precise measurement of micro displacement, film thickness, nano steps and the like.

Description

technical field [0001] The invention belongs to the technical field of precision measurement, in particular to a wavelength-scanning confocal micro-displacement measurement device and method. Background technique [0002] Confocal Microscopy is the most typical method to realize optical tomography. The earliest confocal microscopy imaging device was proposed by M.Minsky, a junior researcher at Harvard University in the middle and late 1950s, and confocal microscopy imaging was developed. The original prototype of the device was granted a US invention patent in 1961. Confocal microscopy has two main advantages, namely high imaging resolution characteristics and axial optical tomography capabilities. The emergence of confocal microscopy technology has revolutionized the basic principles of traditional wide-field optical imaging. Non-contact and non-destructive optical tomography can be realized through three-point conjugate scanning imaging, especially the emergence and devel...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01B11/02
CPCG01B11/02
Inventor 刘涛杨树明刘强蒋庄德王通
Owner XI AN JIAOTONG UNIV
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