Continuous terahertz wave self-reference digital holographic imaging method based on Fresnel double-sided mirror

A technology of digital holography and imaging method, which is applied in the direction of instruments, etc., and can solve the problem of the difference in the intensity of two light beams

Active Publication Date: 2020-04-10
BEIJING UNIV OF TECH
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Problems solved by technology

The commonly used experimental recording optical path in the terahertz digital holography method is based on the Mach-Zehnder interferometer's terahertz off-axis interference structure that makes the object and reference beams have an angle. However, due to the different propagation paths of the object beam and the reference beam, the two beams Environmental interference and vibration are usually sensitive, and there is inevitably a difference in the split intensity ratio of the two beams

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  • Continuous terahertz wave self-reference digital holographic imaging method based on Fresnel double-sided mirror
  • Continuous terahertz wave self-reference digital holographic imaging method based on Fresnel double-sided mirror
  • Continuous terahertz wave self-reference digital holographic imaging method based on Fresnel double-sided mirror

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Embodiment Construction

[0016] Exemplary embodiments and features of the present invention will be described in detail below with reference to the accompanying drawings.

[0017] A continuous terahertz wave self-referencing digital holographic imaging system based on a Fresnel double-sided mirror, the optical path of which includes CO 2 Pump terahertz laser 1, the first gold-coated off-axis mirror 2 (focal length 25.4mm), the second gold-coated off-axis mirror 3 (focal length 76.2mm), the sample to be tested 4, the first gold-coated mirror 5 , the second gold-plated reflector 6 and the pyroelectric detector 7, such as figure 1 shown. The terahertz laser in the experiment is CO 2 The pumping terahertz laser 1 has a frequency of 2.52THz (corresponding to a central wavelength of 118.83μm), which generates continuous terahertz waves with a maximum power of 500mW. The number of pixels of the pyroelectric detector 7 is 320×320 pixels, and the pixel size is It is 80μm×80μm, and the sampling frequency is ...

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Abstract

The invention discloses a continuous terahertz wave self-reference digital holographic imaging method based on a Fresnel double-sided mirror. According to the method, high-time-stability common-optical-path off-axis interference holography can be achieved only through few optical elements. The method has the advantages that the number of required optical elements is small, the optical path structure is compact, the period of interference fringes can be flexibly adjusted, and the sampling condition of the detector can be better met. Because the intensities of the object light and the referencelight on are cording plane are almost equal, interference fringes with consistent contrast can be obtained, and the reproduction of an amplitude image and a phase image and the improvement of the precision are facilitated. Under the conditions of the same recording duration and unchanged experimental conditions, experiments prove that the recording device provided by the invention has higher timestability than the traditional optical path system based on a Mach-Zehnder interferometer structure.

Description

technical field [0001] The present invention relates to a method for self-referencing digital holography to improve system time stability, in particular to a continuous terahertz wave self-referencing digital holographic imaging method based on a Fresnel double-sided mirror, which is a continuous terahertz wave based on a common optical path structure. Hertzian wave self-referencing digital holography method. Background technique [0002] Terahertz digital holography can be used to reconstruct object wavefronts in real time. The effectiveness of this full-field lensless terahertz phase-contrast imaging method has been widely used in off-axis interferometer configurations. The commonly used experimental recording optical path in the terahertz digital holography method is based on the Mach-Zehnder interferometer's terahertz off-axis interference structure that makes the object and reference beams have an angle. However, due to the different propagation paths of the object bea...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G03H1/00G03H1/04G03H1/08G03H1/10
CPCG03H1/0005G03H1/0443G03H1/0866G03H1/10G03H2001/0033G03H2001/0445
Inventor 王大勇戎路张娅雅王云新赵洁
Owner BEIJING UNIV OF TECH
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