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Beam-scanning interference type nano surface tri-dimensional on-line measuring system and method

A measurement method and interferometric technology, which is applied in the field of optical measurement, can solve problems such as complex scanning mechanism, high instrument cost, and sensitivity to interference in the measurement environment, and achieve the effect of simple scanning mechanism, low system cost and fast measurement speed

Inactive Publication Date: 2009-01-28
BEIJING JIAOTONG UNIV
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Problems solved by technology

[0015] 1. They are all point scanning measurement methods, the measurement speed is slow, two-dimensional scanning is required for three-dimensional surface measurement, the scanning mechanism is complicated, and the instrument cost is high;
[0016] 2. Sensitive to the interference of the measurement environment, it is not suitable for online measurement;
[0017] 3. The measurement range is limited by the incident light wavelength λ, and the measurement range is less than λ / 2

Method used

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  • Beam-scanning interference type nano surface tri-dimensional on-line measuring system and method
  • Beam-scanning interference type nano surface tri-dimensional on-line measuring system and method
  • Beam-scanning interference type nano surface tri-dimensional on-line measuring system and method

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Embodiment Construction

[0030] The present invention will be further described below in conjunction with the accompanying drawings and specific embodiments.

[0031] Such as image 3 As shown, the light emitted by the superluminescent light-emitting diode SLD (center wavelength 850nm, spectral width 40nm) is coupled into the measurement system, after passing through the optical fiber 3dB-coupler, the optical fiber self-collimation lens Z1 collimates it into a parallel beam, and enters the dispersion and collimation system, the grating in the dispersion collimation system (such as Figure 4As shown) the parallel light beam is dispersed into a light sheet whose wavelength is continuously distributed in space, and then collimated into a parallel light sheet by a collimating lens, and then passes through a flat cylindrical focusing lens, and the cylindrical surface of the flat cylindrical focusing lens is coated with semi-transparent and semi-transparent Reflective film, half of the light intensity is r...

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Abstract

Interference type nano-surface three-dimensional online measurement system and method using light beam scanning with common path interference structure can suppress environmental disturbance, including a grating for dispersing a light beam with a spectrum of 40nm to the light with spatial continuous distributed wavelength which is collimated to be parallel light by a plane-cylinder lens coated with semitransparent half-reflective film, therefore a half of light is reflected back as reference light, while another part is focused to light beam with different wavelengths reflected back to the system by different detected points and then dispersed to the light with spatial continuous distributed wavelength after interference with the reference light, so as to be detected by linear CCD. Different pixel of the CCD detect interference signal with different wavelength, and obtain interference signal phase change of each pixel, namely obtain longitudinal value change of corresponding detected point. The two-dimensional surface measurement can be realized by one location, and the three-dimensional surface measurement can be realized by light horizontal scanning, thereby improving greatly the measurement speed, reducing costs, extending measuring range to 300 um with resolution superior than 0.1nm using optical path tracking.

Description

technical field [0001] The invention relates to a light-scanning interference-type nanometer surface three-dimensional measurement system and method, in particular to a nanometer surface three-dimensional measurement system suitable for on-line measurement, which belongs to the technical field of optical measurement. Background technique [0002] There are two existing documents close to this technology: [0003] [1] D.P.Hand, T.A.Carolan, J.S.Barton, and J.D.C.Jones. "Profile measurement of optically rough surfaces by fiber-optic interferomtry", Opt.Lett., Vol.18, No.16, 1993, P.1361-1363. (Optics Letters, Vol. 18, No. 16, P.1361-1363) [0004] The technical principle of literature [1] is as follows: figure 1 shown. [0005] The light emitted by the semiconductor laser passes through the Faraday isolator and the fiber 3dB-coupler, and then reaches the measuring head. The measuring head is a Fizeau interferometer. A part of the light is reflected by the end face of the fi...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01B9/023
Inventor 谢芳
Owner BEIJING JIAOTONG UNIV
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