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Hauptverfasser: Nesti, Giulio, Pezzè, Luca
Format: Preprint
Veröffentlicht: 2026
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Online-Zugang:https://arxiv.org/abs/2601.15159
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author Nesti, Giulio
Pezzè, Luca
author_facet Nesti, Giulio
Pezzè, Luca
contents Recent experiments have probed the stability of ring superfluids in the presence of Josephson barriers or Gaussian impurities. Here we present a theoretical analysis that extends beyond the regimes explored so far. We study the onset of dynamical instabilities induced by a one-dimensional potential rotating at an effective angular velocity $ω$, addressing both the tunneling and the hydrodynamic regimes. We show that the critical angular velocity $ω_c$ increases almost linearly with the number of barriers, with a slope set by their height and width. When the system is quenched into the dynamically unstable regime, it emits multiple solitons, which can switch or even reverse the direction of circulation. The stabilization mechanism is robust against imperfections of the potential and does not require a perfectly periodic array of barriers. In particular, we find that adding a disordered speckle potential to an ordered array of barriers can further increase $ω_c$: disorder can therefore make a ring superfluid more resilient to dynamical instabilities.
format Preprint
id arxiv_https___arxiv_org_abs_2601_15159
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Increasing the stability of a superfluid in a rotating necklace potential
Nesti, Giulio
Pezzè, Luca
Quantum Gases
Recent experiments have probed the stability of ring superfluids in the presence of Josephson barriers or Gaussian impurities. Here we present a theoretical analysis that extends beyond the regimes explored so far. We study the onset of dynamical instabilities induced by a one-dimensional potential rotating at an effective angular velocity $ω$, addressing both the tunneling and the hydrodynamic regimes. We show that the critical angular velocity $ω_c$ increases almost linearly with the number of barriers, with a slope set by their height and width. When the system is quenched into the dynamically unstable regime, it emits multiple solitons, which can switch or even reverse the direction of circulation. The stabilization mechanism is robust against imperfections of the potential and does not require a perfectly periodic array of barriers. In particular, we find that adding a disordered speckle potential to an ordered array of barriers can further increase $ω_c$: disorder can therefore make a ring superfluid more resilient to dynamical instabilities.
title Increasing the stability of a superfluid in a rotating necklace potential
topic Quantum Gases
url https://arxiv.org/abs/2601.15159