Method for measuring phase delay of crystal broad spectrum

A phase delay and measurement method technology, applied in the field of crystal material measurement, can solve the problems of time-consuming and labor-intensive measurement of crystal phase delay, multi-wavelength testing difficulties, etc.

Inactive Publication Date: 2008-06-18
SHANDONG UNIV
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Problems solved by technology

In the prior art, the traditional electro-optic modulation method, optical heterodyne method, λ/4 wave plate method, etc. are used to measure the crystal phase delay, but the above-mentioned methods can only measure the uniaxial crystal phase delay of a single wavelength, such as Using the λ/4 wave plate method to measure the phase retardation of the crystal requires a polarizer, an achromatic λ/4 wave plate, and a polarizer to measure the crystal under test. The light source emits monochromatic light with a wavelength of λ. The polarizer becomes linearly polarized light, which becomes elliptically polarized light after passing through the measured crystal, and the phase difference in the direction of its long and short axes is π/2. If it passes through the λ/4 wave plate whose fast and slow axes coi

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  • Method for measuring phase delay of crystal broad spectrum
  • Method for measuring phase delay of crystal broad spectrum
  • Method for measuring phase delay of crystal broad spectrum

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Embodiment 1

[0043] The embodiment of the present invention is shown in Fig. 1, a kind of device that is used for crystal broad-spectrum phase retardation measuring method, by light source 1, monochromator 2, two reflection mirrors 7,8 and two half mirrors 3,10 , a polarizer 4 and an analyzer 6, a polarizer 9 and a photomultiplier tube 11, the light source 1 is located in front of the monochromator 2, and two reflectors 7, 8 and two semi-transparent and semi-transparent mirrors are placed behind the monochromator 2 Anti-mirror 3,10, can form two parallel optical paths with the monochromatic light that monochromator 2 exits via reflector 8 and half-mirror 3, then by reflector 7 and half-mirror 10 two The light paths are collected into one light path; the photomultiplier tube 11 is placed at the terminal position of the light path of collection, and it is characterized in that a polarizer 4 and an analyzer 6 are sequentially placed in one of the two light paths, and a polarizer 6 is placed in...

Embodiment 2

[0045] This embodiment is shown in Figure 1, a method for measuring the phase delay of a crystal wide spectrum, the steps are as follows:

[0046] a. cutting the measured crystal into wafer samples 5 along the z direction;

[0047] b. In one optical path of the double-beam spectrophotometer, put a polarizer 4 and an analyzer 6, and rotate the analyzer 6 so that its vibration transmission direction is parallel to that of the polarizer 4;

[0048] c. Put a polarizer 9 in another optical path of the double-beam spectrophotometer, adjust the transmission direction of the polarizer 9 to make it the same as the transmission direction of the polarizer 4 in the optical path described in the above step b parallel;

[0049] d. put the wafer sample 5 between the polarizer 4 and the analyzer 6 in the optical path described in the above-mentioned steps b, make its optical axis (e light vibration direction) parallel to the vibration transmission direction of the polarizer 4;

[0050] e. a...

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Abstract

The invention provides a method to measure the phase delay of wide spectra of a crystal, and belongs to the measuring technique of crystalline materials. The invention uses a bromine tungsten-arc lamp which can transmit ultraviolet and visible light as an illuminant, and adopts a double-beam spectrophotometer, a polarizer and an analyzer to continuously measure the transmission spectrum of a uniaxial crystal. In this way, the phase delay of the uniaxial crystal can be got from the transmittivity values under different wavelengths to achieve measurement of multiple wavelengths of phase delay. The invention overwhelms the defect of the traditional electrooptical modulation method, the optical heterodyne method and the Lambda/4 wave plate method and so on that only phase delay of the uniaxial crystal under one single wavelength can be measured. The invention achieves the test of multiple wavelengths of phase delay, and the measuring method is timesaving, laborsaving, simple and reliable.

Description

Technical field: [0001] The invention relates to the measurement technology of crystal materials, in particular to a measurement method of crystal wide-spectrum phase delay. Background technique: [0002] As a functional material in modern laser application technology and polarization technology, birefringent crystals have been widely used in the fields of light polarization, modulation and nonlinear optics technology, especially for the production of various laser polarization devices, phase delay devices and Electro-optic modulation devices. In polarization technology, how to accurately and conveniently measure the phase retardation of crystals has always been concerned by people. Due to the dispersion characteristic of crystal birefringence, the phase retardation of crystal has obvious dependence on wavelength. In the prior art, the traditional electro-optical modulation method, optical heterodyne method, λ / 4 wave plate method, etc. are used to measure the crystal phase...

Claims

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Application Information

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IPC IPC(8): G01N21/59G01N21/17G06F17/10
Inventor 连洁魏爱俭张瑞峰卜刚
Owner SHANDONG UNIV
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