Abshagen J, von Stamm J, Heise M, Will Ch, Pfister G
Institute of Experimental and Applied Physics, University of Kiel, Germany.
Phys Rev E Stat Nonlin Soft Matter Phys. 2012 May;85(5 Pt 2):056307. doi: 10.1103/PhysRevE.85.056307. Epub 2012 May 18.
We report the results of an experimental study on the multiplicity of states in Taylor-Couette flow as a result of axial localization of azimuthally rotating waves. Localized states have been found to appear hysteretically from time-dependent Taylor-Couette flow at Reynolds numbers significantly above the onset of wavy Taylor vortices. These localized states have the shape of a modulated rotating wave and differ significantly from global modulated wavy Taylor vortex states in their spatial characteristics. Axial localization of rotating waves is accompanied with a significant increase in size of the underlying pair of Taylor vortices. Our work reveals that localization provides a mechanism for the appearance of multiple time-dependent states in Taylor-Couette flow.
我们报告了一项关于泰勒-库埃特流中由于方位旋转波的轴向局域化而导致的状态多重性的实验研究结果。已发现局域化状态在雷诺数显著高于波动泰勒涡旋起始点时,从时间相关的泰勒-库埃特流中滞后出现。这些局域化状态具有调制旋转波的形状,并且在空间特征上与全局调制波动泰勒涡旋状态有显著差异。旋转波的轴向局域化伴随着其下方一对泰勒涡旋尺寸的显著增加。我们的工作表明,局域化提供了一种在泰勒-库埃特流中出现多个时间相关状态的机制。