English

Long-lived quantum vortex knots

Other Condensed Matter 2018-06-13 v2 Quantum Gases Pattern Formation and Solitons Fluid Dynamics

Abstract

Dynamics of simplest quantum vortex knots of torus type in a superfluid at zero temperature has been simulated within a regularized Biot-Savart law (the torus radii R0R_0 and r0r_0 for initial vortex configuration were large in comparison with a vortex core width ξ\xi). Computations of evolution times of knots until their significant deformation were carried out with a small step on parameter B0=r0/R0B_0=r_0/R_0 for different values of parameter Λ=log(R0/ξ)\Lambda=\log(R_0/\xi). It has been found that at Λ3\Lambda\gtrsim 3, bands of quasi-stability appear in a region of B00.2B_0\lesssim 0.2, which correspond to long knot lifetimes and to very large traveling distances --- up to several hundreds of R0R_0. This result is new and quite unexpected, because previously it was believed that maximal lifetime of torus knots until reconnection does not exceed several typical periods. The opening of quasi-stable 'windows' at increasing Λ\Lambda is due to narrowing main parametric resonances of the dynamical system on parameter B0B_0.

Cite

@article{arxiv.1801.04822,
  title  = {Long-lived quantum vortex knots},
  author = {Victor P. Ruban},
  journal= {arXiv preprint arXiv:1801.04822},
  year   = {2018}
}

Comments

(3+epsilon) pages, 7 figures, English translation of published Russian original

R2 v1 2026-06-22T23:45:21.895Z