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    Journals >Chinese Optics Letters >Volume 20 >Issue 2 >Page 021203 > Article
    • Chinese Optics Letters
    • Vol. 20, Issue 2, 021203 (2022)
    Investigation of the laser ultrasound propagation in K9 glass using optical interferometry
    Mengmeng Li1、2, Hongchao Zhang1、2、*, Jian Lu1、2, and Zhonghua Shen1、2、**
    Author Affiliations
  • 1School of Science, Nanjing University of Science and Technology, Nanjing 210094, China
  • 2MIIT Key Laboratory of Semiconductor Microstructure and Quantum Sensing, Nanjing University of Science and Technology, Nanjing 210094, China
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    DOI: 10.3788/COL202220.021203 Cite this Article Set citation alerts
    Mengmeng Li, Hongchao Zhang, Jian Lu, Zhonghua Shen. Investigation of the laser ultrasound propagation in K9 glass using optical interferometry[J]. Chinese Optics Letters, 2022, 20(2): 021203 Copy Citation Text show less
    Experimental setup for Mach–Zehnder interferometer: PBS, polarized beam splitter; BS, beam splitter; LSCP, liquid suspended carbon particles; CCD, CCD camera.
    Fig. 1. Experimental setup for Mach–Zehnder interferometer: PBS, polarized beam splitter; BS, beam splitter; LSCP, liquid suspended carbon particles; CCD, CCD camera.
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    (a) Interferogram image of the laser acoustic wave at delay time 0.8 µs, (b) 2D FFT result, and (c) phase distortion as a false color image.
    Fig. 2. (a) Interferogram image of the laser acoustic wave at delay time 0.8 µs, (b) 2D FFT result, and (c) phase distortion as a false color image.
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    Interferograms and phase distortions of interferograms at different time moments demonstrating the propagation of the longitudinal wave and the transverse wave (a), (e) at 0.4 µs, (b), (f) at 0.6 µs, (c), (g) at 0.8 µs, and (d), (h) at 1.0 µs.
    Fig. 3. Interferograms and phase distortions of interferograms at different time moments demonstrating the propagation of the longitudinal wave and the transverse wave (a), (e) at 0.4 µs, (b), (f) at 0.6 µs, (c), (g) at 0.8 µs, and (d), (h) at 1.0 µs.
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    Simulation results of the laser acoustic wave propagation at various delay times: (a) at 0.4 µs, (b) at 0.6 µs, (c) at 0.8 µs, and (d) at 1.0 µs.
    Fig. 4. Simulation results of the laser acoustic wave propagation at various delay times: (a) at 0.4 µs, (b) at 0.6 µs, (c) at 0.8 µs, and (d) at 1.0 µs.
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    Mengmeng Li, Hongchao Zhang, Jian Lu, Zhonghua Shen. Investigation of the laser ultrasound propagation in K9 glass using optical interferometry[J]. Chinese Optics Letters, 2022, 20(2): 021203
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    Paper Information
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