Diagnostics and doppler tomography of liquid flows with ultrasonic phase conjugation

被引:0
|
作者
N. V. Smagin
Yu. V. Pyl’nov
V. L. Preobrazhenskiĭ
P. Pernod
机构
[1] Moscow Institute of Radio Engineering,European Laboratory for Nonlinear Magnetoacoustics of Condensed Matter (LEMAC)
[2] Electronics,Wave Research Center, Prokhorov General Physics Institute
[3] and Automation,Institute of Electronics
[4] Russian Academy of Sciences,undefined
[5] Microelectronics and Nanotechnology (IEMN DOAE UMR CNRS 8520),undefined
来源
Acoustical Physics | 2009年 / 55卷
关键词
43.25.+y; 43.35.+d;
D O I
暂无
中图分类号
学科分类号
摘要
The potential of ultrasonic velocimetry and mapping for liquid flows in a model and real biological media is demonstrated experimentally and theoretically using the technique of parametric phase conjugation of sound. The basis of the proposed method is violation of invariance of an acoustic field with respect to time reversal in a moving medium that leads to an uncompensated phase shift of a phase-conjugate wave at a transmitter-receiver array. The principles for application of nonlinear acoustic effects for improving the reconstruction precision for the field of flow velocities are discussed.
引用
收藏
页码:657 / 664
页数:7
相关论文
共 50 条
  • [1] Diagnostics and doppler tomography of liquid flows with ultrasonic phase conjugation
    Smagin, N. V.
    Pyl'nov, Yu. V.
    Preobrazhenskii, V. L.
    Pernod, P.
    ACOUSTICAL PHYSICS, 2009, 55 (4-5) : 657 - 664
  • [2] Detection of moving objects and flows in liquids by ultrasonic phase conjugation
    Pyl'nov, YV
    Pernod, P
    Preobrazhenskii, VL
    ACOUSTICAL PHYSICS, 2005, 51 (01) : 105 - 109
  • [3] Detection of moving objects and flows in liquids by ultrasonic phase conjugation
    Yu. V. Pyl’nov
    P. Pernod
    V. L. Preobrazhenskii
    Acoustical Physics, 2005, 51 : 105 - 109
  • [4] ULTRASONIC PHASE CONJUGATION
    NIKOONAHAD, M
    PUSATERI, TL
    JOURNAL OF APPLIED PHYSICS, 1989, 66 (09) : 4512 - 4513
  • [5] COHERENT ULTRASONIC DOPPLER TOMOGRAPHY
    Tsui, Chun Sing Louis
    Liang, Hai-Dong
    Halliwell, Michael
    Shere, Mike
    Braybrooke, Jeremy P.
    Whipp, Elisabeth
    Wells, Peter N. T.
    ULTRASOUND IN MEDICINE AND BIOLOGY, 2011, 37 (04): : 642 - 650
  • [6] Continuous wave ultrasonic Doppler tomography
    Liang, Haidong-Dong
    Tsui, Chun Sing Louis
    Halliwell, Michael
    Wells, Peter N. T.
    INTERFACE FOCUS, 2011, 1 (04) : 665 - 672
  • [7] Wave phase conjugation of ultrasonic beams
    Brysev, AP
    Krutyanskii, LM
    Preobrazhenskii, VL
    USPEKHI FIZICHESKIKH NAUK, 1998, 168 (08): : 877 - 890
  • [8] Ultrasonic tomography of nonmixing fluid flows
    Yu. V. Pyl’nov
    L. M. Krutyansky
    Yu. I. Kutlubaeva
    F. Zoueshtiagh
    P. Chainais
    V. Herman
    P. Pernod
    Physics of Wave Phenomena, 2015, 23 : 273 - 278
  • [9] Ultrasonic tomography of nonmixing fluid flows
    Pyl'nov, Yu. V.
    Krutyansky, L. M.
    Kutlubaeva, Yu. I.
    Zoueshtiagh, F.
    Chainais, P.
    Herman, V.
    Pernod, P.
    PHYSICS OF WAVE PHENOMENA, 2015, 23 (04) : 273 - 278
  • [10] Ultrasonic Doppler measurer of flow rate and vapour content of two-phase flows
    Duntsev, A.V.
    Labutin, S.A.
    Mel'nikov, V.I.
    Pribory i Tekhnika Eksperimenta, 1994, (01): : 213 - 214
12345