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Auteurs principaux: Autti, S., Haley, R. P., Jennings, A., Pickett, G. R., Surovtsev, E. V., Tsepelin, V., Zmeev, D. E.
Format: Preprint
Publié: 2024
Sujets:
Accès en ligne:https://arxiv.org/abs/2403.06226
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author Autti, S.
Haley, R. P.
Jennings, A.
Pickett, G. R.
Surovtsev, E. V.
Tsepelin, V.
Zmeev, D. E.
author_facet Autti, S.
Haley, R. P.
Jennings, A.
Pickett, G. R.
Surovtsev, E. V.
Tsepelin, V.
Zmeev, D. E.
contents Vibrating probes when immersed in a fluid can provide powerful tools for characterising the surrounding medium. In superfluid 3He-B, a condensate of Cooper pairs, the dissipation arising from the scattering of quasiparticle excitations from a mechanical oscillator provides the basis of extremely sensitive thermometry and bolometry at sub-millikelvin temperatures. The unique properties of the Andreev reflection process in this condensate also assist by providing a significantly enhanced dissipation. While existing models for such damping on an oscillating cylinder have been verified experimentally, they are valid only for flows with scales much greater than the coherence length of 3He, which is of the order of a hundred nanometres. With our increasing proficiency in fabricating nanosized oscillators which can be readily used in this superfluid there is a pressing need for the development of new models that account for the modification of the flow around these smaller oscillators. Here we report preliminary results on measurements of the damping in superfluid 3He-B of a range of cylindrical nano-sized oscillators with radii comparable to the coherence length, and outline a model for calculating the associated drag.
format Preprint
id arxiv_https___arxiv_org_abs_2403_06226
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Drag on Cylinders Moving in Superfluid 3He-B as the Dimension Spans the Coherence Length
Autti, S.
Haley, R. P.
Jennings, A.
Pickett, G. R.
Surovtsev, E. V.
Tsepelin, V.
Zmeev, D. E.
Mesoscale and Nanoscale Physics
Vibrating probes when immersed in a fluid can provide powerful tools for characterising the surrounding medium. In superfluid 3He-B, a condensate of Cooper pairs, the dissipation arising from the scattering of quasiparticle excitations from a mechanical oscillator provides the basis of extremely sensitive thermometry and bolometry at sub-millikelvin temperatures. The unique properties of the Andreev reflection process in this condensate also assist by providing a significantly enhanced dissipation. While existing models for such damping on an oscillating cylinder have been verified experimentally, they are valid only for flows with scales much greater than the coherence length of 3He, which is of the order of a hundred nanometres. With our increasing proficiency in fabricating nanosized oscillators which can be readily used in this superfluid there is a pressing need for the development of new models that account for the modification of the flow around these smaller oscillators. Here we report preliminary results on measurements of the damping in superfluid 3He-B of a range of cylindrical nano-sized oscillators with radii comparable to the coherence length, and outline a model for calculating the associated drag.
title Drag on Cylinders Moving in Superfluid 3He-B as the Dimension Spans the Coherence Length
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2403.06226