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The application of laser reflective tomography in near-field measurements of ultrasonic transducers 被引量:4

The application of laser reflective tomography in near-field measurements of ultrasonic transducers
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摘要 With Laser Reflective Tomography(LRT),the near fields of ultrasonic transducers were measured and analyzed.The principle of LRT measurement of ultrasonic field distribution was introduced and an experimental system was set up.Acoustic pressure of a multiple element piston transducer was measured by using of a laser vibrometer.Its distribution in amplitude and phase was obtained.The acoustic pressure in the same region was measured with a needle hydrophone to validate the LRT method.Furthermore,through reconstruction of acoustic fields,it indicated that LRT method is suitable for predicting the distribution on transducers'surface and conditions of active elements. With Laser Reflective Tomography(LRT),the near fields of ultrasonic transducers were measured and analyzed.The principle of LRT measurement of ultrasonic field distribution was introduced and an experimental system was set up.Acoustic pressure of a multiple element piston transducer was measured by using of a laser vibrometer.Its distribution in amplitude and phase was obtained.The acoustic pressure in the same region was measured with a needle hydrophone to validate the LRT method.Furthermore,through reconstruction of acoustic fields,it indicated that LRT method is suitable for predicting the distribution on transducers'surface and conditions of active elements.
作者 WANG Yuebing WANG Shiquan
机构地区 China Jiliang University Hangzhou Applied Acoustic Research Institute
出处 《Chinese Journal of Acoustics》 2014年第3期257-266,共10页 声学学报(英文版)
关键词 The application of laser reflective tomography in near-field measurements of ultrasonic transducers LRT
分类号 TB552 [理学—声学]
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参考文献14

  • 1Higgins F P, Norton S J, Linzer M. Optical interferometry visualization and computerized recon- struction of ultrasonic fields. J. Acoust. Soc. Am., 1980; 68(4): 1169-1176.
  • 2Monchalin J P. Optical detection of ultrasound. IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency control, 1986; 33(5): 485-499.
  • 3Carnell M T, Alock R D, Emmony D C. Optical imaging of shock waves produced by a high-energy electromagnetic transducer. Phys. Med. Biol., 1993; 38:1575-1588.
  • 4Reibold R, Molkenstruck W. Light diffraction tomography applied to the investigation of ultrasonic fields. Part 1: continuous waves. Acustica, 1984; 56:180-192.
  • 5Reibold R. Light diffraction tomography applied to the investigation of ultrasonic fields. Part II: standing waves. Acustica, 1987; 63:283-289.
  • 6Pitts T A, Sagers A, Greenleaf J F. Optical phase contrast measurement of ultrasonic fields. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency control, 2001; 48(6): 1686-1694.
  • 7Pitts T A, Greenleaf J F. Three-dimensional optical measurement of instantaneous pressure. J. Acoust. Soc. Am., 2000; 108(6): 2873-2883.
  • 8Remenieras J P, Olivier Bou Matar et al. Acoustic pressure measurement by acousto-optic tomog- raphy. 2001 IEEE Ultrasonics Symposium, 2001:505-508.
  • 9Bahr L, Lerch R. Beam profile measurements using light refractive tomography. IEEE Transactions on Ultrasonics, Ferroelcctrics, and Frequency control, 2008; 55(2): 405-413.
  • 10Harland A R, Petzing J N, Tyrer J R. Non-invasive measurements of underwater pressure fields using laser Doppler velocimetry. Journal of Sound and Vibration, 2002; 252(1): 169-177.

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Chinese Journal of Acoustics
2014年 第3期

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