A. Handa scite author profile

The motions of superfluid vortices attached to a boundary are investigated in alternating currents by using a vibrating wire. The attached vortices appear to form a layer on the wire and enhance the mass of the wire, even for low velocity currents. In turbulence, chaotic motions of vortices such as entanglement and reconnection reduce the thickness of the layer in spite of the fact that the vortices unstably expand. When turbulence subsides, the attached vortices appear to shrink, with the degree of shrinking influenced by thermal excitations in the superfluid.

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Switching Phenomena between Laminar and Turbulent Flows of Superfluid 4He Generated by a Vibrating Wire

Hashimoto

Handa

Nakagawa

et al. 2007

J Low Temp Phys

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Study on the Turbulent Flow of Superfluid 4He Generated by a Vibrating Wire

Yano¹,

Handa²,

Nakagawa³

et al. 2006

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We have studied the turbulent flow of superfluid 4 He generated by an oscillating object. We prepared a very thin wire with a 2.5 µm diameter made of NbTi and formed a vibrating wire from it as the oscillator. As increasing drive, the oscillation of the wire grows up in superfluid 4 He, but its velocity suddenly drops and gradually increases at higher drives. It is easily understood that the high speed oscillation of the wire creates vortices and the stream around it develops into turbulence. The superfluid flow generates the unstable expansion of the vortex strings attached to the wire because of the Glaberson-Donnelly instability after its velocity becomes higher than a certain velocity. The turbulence disappears in a decreasing drive process at a non-zero velocity, which derives a finite size of the vortices even in the turbulence. We also measured the resonance frequency of the wire, estimated an extra thickness as the extra moment of the vibrating wire, and found that the extra thickness increases gradually with velocity but decreases steeply after the stream changes into the turbulence. The creation of vortices might cause the energy loss and increase the moment of the wire. The decrease of the moment in the turbulence implies that the size of the attached vortices should reduce more effectively than the moment increases. Vortices might expand, tangle, and reconnect themselves in the turbulence. The tangle and reconnection process may reduce the size of the attached vortices.

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Observation of the turbulent flow in superfluid 4He using a vibrating wire

Yano

Handa

Nakagawa

et al. 2005

Journal of Physics and Chemistry of Solids

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A. Handa

Observation of Laminar and Turbulent Flow in Superfluid 4He using a Vibrating Wire

Motions of quantized vortices attached to a boundary in alternating currents of superfluidHe4

Switching Phenomena between Laminar and Turbulent Flows of Superfluid 4He Generated by a Vibrating Wire

Study on the Turbulent Flow of Superfluid 4He Generated by a Vibrating Wire

Observation of the turbulent flow in superfluid 4He using a vibrating wire

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