RAYLEIGH-TAYLOR INSTABILITY MECHANISM ON SONOLUMINESCING BUBBLE

机译：声光起泡的瑞利泰勒不稳定性机理

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Air bubble trapped in water emits light stably at its collapse point when proper forcing amplitude and frequency of ultrasound are applied to the bubble. We investigated the Rayleigh-Taylor instability mechanism that causes deviation from sphericity of wall of the bubble at the collapse point in the sonoluminescence (SL) regime with rigorous analytical treatment. Our study revealed that the RT instability due to the bubble wall acceleration occurs when the gas density inside bubble exceeds a certain limit. Lagging motion of bubble to the ultrasound due to the viscoelastic behavior of bubble rather than viscous damping was a crucial parameter in determining the upper threshold of SL. The calculation results for the upper limit of stable sonoluminescence regime agreed well with experimental data.

机译：当对超声波施加适当的强制振幅和超声波频率时，困在水中的气泡会在其崩溃点稳定发光。我们通过严格的分析处理，研究了在声致发光（SL）方案中在塌陷点导致气泡壁球形度偏离的Rayleigh-Taylor不稳定性机制。我们的研究表明，当气泡内部的气体密度超过一定极限时，由于气泡壁加速而导致的RT不稳定。由于气泡的粘弹性行为而不是粘性阻尼，气泡对超声波的滞后运动是确定SL上限的关键参数。稳定的声致发光范围上限的计算结果与实验数据吻合良好。

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《American Society of Mechanical Engineers(ASME) Heat Transfer/Fluids Engineering Summer Conference 2004(HT/FED 2004) vol.3; 20040711-15; Charlotte,NC(US)》|2004年|P.755-764|共10页
会议地点 CharlotteNC(US)
作者
Sarng Woo Karng; Yoon Pyo Lee; Ho-Young Kwak;
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Thermal/Flow Control Research Center, Korea Institute of Science and Technology P.O. BOX 131 Cheongryang, Seoul, 130-650, Korea;

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正文语种 eng
中图分类工程流体力学;
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RAYLEIGH-TAYLOR INSTABILITY MECHANISM ON SONOLUMINESCING BUBBLE

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