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Techniques and physical properties of 10MHz short pulse focused ultrasonic transducer 被引量:1

Techniques and physical properties of 10MHz short pulse focused ultrasonic transducer
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摘要 A focused ultrasonic transducer used for biomedical purposes with a fundamental frequency of 10MHz and a pulse width of one and a half periods is described in this paper. Its physical properties are given including (1) focused acoustic field recorded by an optical means, (2) electric waveform for triggering the transducer and the corresponding waveform of the wave received by another transducer, and (3) result of tests on a sample object. A focused ultrasonic transducer used for biomedical purposes with a fundamental frequency of 10MHz and a pulse width of one and a half periods is described in this paper. Its physical properties are given including (1) focused acoustic field recorded by an optical means, (2) electric waveform for triggering the transducer and the corresponding waveform of the wave received by another transducer, and (3) result of tests on a sample object.
作者 ZHU Guozhen, YANG Yong, LU Kean (Department of Physics, Tsinghua University, Beijing 100084, China)
出处 《声学技术》 CSCD 2004年第S1期15-17,22,共4页 Technical Acoustics
关键词 FOCUSED TRANSDUCER SHORT pulse ULTRASONIC MEDICINE NONDESTRUCTIVE testing focused transducer short pulse ultrasonic medicine nondestructive testing
分类号 TB552 [理学—声学]
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参考文献4

  • 1ZHU Guozhen,ZHOU Tieying,WEI Jianxin.Technology of tungsten-epoxy back block and Its application[].Applied Acoustics.1986
  • 2Gunarathne G P P,Szilard J.A New stroboscope for schlieren and photoelastic visualization of ultrasonics[].Ultrasonics.1983
  • 3Li H P,Zan L,and Foster F S.Ultrasonic and viscoelastic properties of skin under transverse mechanical stress in vitro[].Journal of Ultrasound in Medicine.1998
  • 4Redwood M.A studies of waveform in the generation and detection of short ultrasonic pulse.Appl[].Met Res.1963

引证文献1

  • 1WANG Qing-wu1,3, ZHANG Peng-ming1,2(1 Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China,2 Center of Theoretical Nuclear Physics, National Laboratory of Heavy Ion Research Facility in Lanzhou,Lanzhou 730000, China,3 Graduate School of Chinese Academy of Sciences, Beijing 100049, China).Charmed Baryon in Diquark Model[J].原子核物理评论,2009,26(S1):190-193.
声学技术
2004年 第S1期

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