Reconnection dynamics for quantized vortices
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Publication:989331
DOI10.1016/j.physd.2009.03.006zbMath1193.37128arXiv0810.5521OpenAlexW2057013012MaRDI QIDQ989331
Michael E. Fisher, Matthew S. Paoletti, Daniel P. Lathrop
Publication date: 19 August 2010
Published in: Physica D (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/0810.5521
Statistical mechanics of superfluids (82D50) Dynamical systems in other branches of physics (quantum mechanics, general relativity, laser physics) (37N20)
Related Items (8)
Vortex filament method as a tool for computational visualization of quantum turbulence ⋮ Non-equilibrium thermodynamics, heat transport and thermal waves in laminar and turbulent superfluid helium ⋮ Separation scaling for viscous vortex reconnection ⋮ SCALAR FIELD COSMOLOGY II: SUPERFLUIDITY, QUANTUM TURBULENCE, AND INFLATION ⋮ Generalized local induction equation, elliptic asymptotics, and simulating superfluid turbulence ⋮ Absence of singular stretching of interacting vortex filaments ⋮ Turbulent energy cascade and mixing induced by the axis-offset collision of two vortex rings ⋮ Waves on a vortex filament: exact solutions of dynamical equations
Cites Work
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- Evolution of quantum vortices following reconnection.
- Collapse and amplification of a vortex filament
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- A refinement of previous hypotheses concerning the local structure of turbulence in a viscous incompressible fluid at high Reynolds number
- Magnetic Reconnection
- Study of Reconnection and Acoustic Emission of Quantized Vortices in Superfluid by the Numerical Analysis of the Gross–Pitaevskii Equation
- The spatial structure and statistical properties of homogeneous turbulence
- Velocity field statistics in homogeneous steady turbulence obtained using a high-resolution direct numerical simulation
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