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Vacuum tunneling of vortices in two-dimensional <sup>4</sup>He superfluid films.


ABSTRACT: At low temperature T we expect vacuum tunneling processes to occur in superfluid 4He films. We distinguish between extrinsic processes, in which single vortices nucleate by tunneling off boundaries in the system, and intrinsic processes, in which vortex/anti-vortex pairs nucleate far from boundaries. It is crucial to incorporate the varying effective mass of the vortex in tunneling calculations. The intrinsic processes are the superfluid analogue of the Schwinger mechanism in quantum field theory; here they appear as a quantum phase transition at T = 0, driven by an external supercurrent. We calculate the tunneling rate for these processes, and describe a means of testing the predictions using a specific "vortex counting" experiment.

SUBMITTER: Desrochers MJ 

PROVIDER: S-EPMC12435262 | biostudies-literature | 2025 Sep

REPOSITORIES: biostudies-literature

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Vacuum tunneling of vortices in two-dimensional &lt;sup&gt;4&lt;/sup&gt;He superfluid films.

Desrochers M J MJ   Marchand D J J DJJ   Stamp P C E PCE  

Proceedings of the National Academy of Sciences of the United States of America 20250902 36


At low temperature <i>T</i> we expect vacuum tunneling processes to occur in superfluid <sup>4</sup>He films. We distinguish between extrinsic processes, in which single vortices nucleate by tunneling off boundaries in the system, and intrinsic processes, in which vortex/anti-vortex pairs nucleate far from boundaries. It is crucial to incorporate the varying effective mass of the vortex in tunneling calculations. The intrinsic processes are the superfluid analogue of the Schwinger mechanism in q  ...[more]

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