Superfluid Boundary Layer

Stagg, G. W.; Parker, N. G.; Barenghi, C. F.

doi:10.1103/PhysRevLett.118.135301

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Superfluid Boundary Layer

Author(s): G. W. Stagg , N. G. Parker , C. F. Barenghi

Publication date (Print): March 2017

Journal: Physical Review Letters

Publisher: American Physical Society (APS)

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Three-dimensional vortex dynamics in superfluidHe4: Homogeneous superfluid turbulence

Christian K W Schwarz (1988)

0 comments Cited 183 times – based on 0 reviews      Review now

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Record: found
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Transition to dissipation in a model of superflow

T Frisch, Y Pomeau, S Rica (1992)

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Superfluid helium: visualization of quantized vortices.

Gregory Bewley, Daniel P Lathrop, Katepalli Sreenivasan (2006)

When liquid helium is cooled to below its phase transition at 2.172 K, vortices appear with cores that are only ångströms in diameter, about which the fluid circulates with quantized angular momentum. Here we generate small particles of solid hydrogen that can be used to image the cores of quantized vortices in their three-dimensional environment of liquid helium. This technique enables the geometry and interactions of these vortices to be observed directly.