在低温极限下由振荡网格引起的超流氦II的流动。

Flow of He II due to an oscillating grid in the low-temperature limit.

作者信息

Nichol H A, Skrbek L, Hendry P C, McClintock P V E

机构信息

Department of Physics, Lancaster University, Lancaster LA1 4YB, United Kingdom.

出版信息

Phys Rev Lett. 2004 Jun 18;92(24):244501. doi: 10.1103/PhysRevLett.92.244501. Epub 2004 Jun 15.

DOI:10.1103/PhysRevLett.92.244501

PMID:15245085

Abstract

The macroscopic flow properties of pure He II are probed in the limit of zero temperature using an oscillating grid. As the oscillation amplitude passes a first critical threshold, the resonant frequency starts decreasing but the flow remains nondissipative. Beyond a second critical amplitude, the flow undergoes a transition to turbulence and becomes dissipative. Nonlinearity and hysteresis observed between the thresholds are attributed to a boundary layer of quantized vortices.

摘要

利用振荡网格在零温度极限下探测纯超流氦II的宏观流动特性。当振荡幅度超过第一个临界阈值时，共振频率开始降低，但流动仍无耗散。超过第二个临界幅度后，流动转变为湍流并变得耗散。阈值之间观察到的非线性和滞后现象归因于量子化涡旋的边界层。

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在低温极限下由振荡网格引起的超流氦II的流动。

Flow of He II due to an oscillating grid in the low-temperature limit.

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