Potential of microbubbles for use as point targets in phase aberration correction

Psychoudakis D.; Fowlkes J.B.; Volakis J.L.; Carson P.L.

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Potential of microbubbles for use as point targets in phase aberration correction

机译：微气泡在相差校正中用作点目标的潜力

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Bubbles can be produced by vaporization of perfluorocarbon droplets of a few Μm diameter. These bubbles can reach over 100 Μm in diameter and their backscatter is calculated to be well more than 10 dB above that of several organ tissues. At appropriate sizes, small acoustic amplitudes, and diagnostic frequencies (2-15 MHz), bubbles can be approximated by the nonrigid sphere-scattering solution employed here. This paper concerns the bubble size and its implications on the backscatter amplitude and the phase error introduced in diagnostic ultrasound when assuming that the bubble acts as a point target for phase aberration correction.

机译：气泡可以通过蒸发直径为几微米的全氟化碳液滴来产生。这些气泡的直径可以超过100微米，并且其反向散射经计算比几个器官组织的反向散射高出10 dB以上。在适当的尺寸，较小的声振幅和诊断频率（2-15 MHz）下，可以通过此处采用的非刚性球体散射解决方案来近似气泡。本文假设气泡充当相位像差校正的点目标时，涉及气泡大小及其对诊断超声引入的反向散射幅度和相位误差的影响。

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《IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control》 |2004年第12期|p.1639-1648|共10页
作者
Psychoudakis D.; Fowlkes J.B.; Volakis J.L.; Carson P.L.;
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正文语种 eng
中图分类声学工程;计量学;
关键词
aberrations; acoustic wave scattering; backscatter; bubbles; drops; organic compounds; vaporisation; 100 micron; 2 to 15 MHz; acoustic amplitudes; backscatter amplitude; diagnostic frequencies; microbubbles; nonrigid sphere scattering solution; organ tissues; perfluoro;

机译：像差;声波散射;反向散射;气泡;液滴;有机化合物;蒸发;100微米;2至15 MHz;声幅;反向散射幅度;诊断频率;微气泡;非刚性球体散射溶液;器官组织;全氟;

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1. 3-D transcranial ultrasound imaging with bilateral phase aberration correction of multiple isoplanatic patches: A pilot human study with microbubble contrast enhancement [J] . LindseyB.D., NicolettoH.A., BennettE.R., Ultrasound in Medicine and Biology . 2014,第1期

机译：具有多个等平面斑的双侧相差校正的3-D经颅超声成像：一项具有微泡对比增强功能的先导人体研究
2. Comparisons of image quality factors for phase aberration correction with diffuse and point targets: theory and experiments [J] . Zhao D., Trahey G.E. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control . 1991,第2期

机译：弥散和点目标相差校正的图像质量因子比较：理论和实验
3. Effects of Phase Aberration and Phase Aberration Correction on the Minimum Variance Beamformer [J] . Gustavo Chau, Jeremy Dahl, Roberto Lavarello Ultrasonic Imaging: An International Journal . 2018,第1期

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4. Phase Aberration Correction on a 3D Ultrasound Scanner Using RF Speckle from Moving Targets [C] . Nikolas M. Ivancevich, Jeremy D. Dahl, Edward D. Light, IEEE Ultrasonics Symposium . 2006

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5. Focusing aberration corrections for ultrasonic inspections of disk forgings when using a surface compensating mirror and segmented annular phased array. [D] . Friedl, Jon Hiram, Jr. 2010

机译：使用表面补偿镜和分段环形相控阵时，对盘锻件进行超声波检查的聚焦像差校正。
6. Three-dimensional transcranial ultrasound imaging with bilateral phase aberration correction of multiple isoplanatic patches: A pilot human study with microbubble contrast enhancement [O] . Brooks D. Lindsey, Heather A. Nicoletto, Ellen R. Bennett, -1

机译：具有多个等平面斑的双侧相像差校正的三维经颅超声成像：微泡造影增强的先导人体研究
7. 3-D Transcranial Ultrasound Imaging with Bilateral Phase Aberration Correction of Multiple Isoplanatic Patches: A Pilot Human Study with Microbubble Contrast Enhancement [O] . Brooks D. Lindsey, Heather A. Nicoletto, Ellen R. Bennett, 2014

机译：3-D经颅超声成像，双侧相位像差校正多种等渗斑块：用微泡对比增强的试验人类研究
8. Wavefront Aberration Correction Using Zernike Polynomial Parameterizations of Optical Phased Arrays (PREPRINT) [R] . Butterworth, J. A. , Hindman, C. , Lacy, S. 2007

机译：使用光学相控阵的Zernike多项式参数化进行波前像差校正（pREpRINT）

Potential of microbubbles for use as point targets in phase aberration correction

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