Kolmogorov Spectrum of Quantum Turbulence(Condensed Matter : Structure, Mechanical and Thermal Properties)

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概要

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• There is a growing interest in the relation between classical turbulence and quantum turbulence. Classical turbulence arises from complicated dynamics of eddies in a classical fluid. In contrast, quantum turbulence consists of a tangle of stable topological defects called quantized vortices, and thus quantum turbulence provides a simpler prototype of turbulence than classical turbulence. In this paper, we investigate the dynamics and statistics of quantized vortices in quantum turbulence by numerically solving a modified Gross-Pitaevskii equation. First, to make decaying turbulence, we introduce a dissipation term that works only at scales below the healing length. Second, to obtain steady turbulence through the balance between injection and decay, we add energy injection at large scales. The energy spectrum is quantitatively consistent with the Kolmogorov law in both decaying and steady turbulence. Consequently, this is the first study that confirms the inertial range of quantum turbulence.

• 社団法人日本物理学会の論文
• 2005-12-15

著者

• Tsubota Makoto

  Faculty Of Science Osaka City University

• Kobayashi Michikazu

  Faculty Of Science Osaka City University

• TSUBOTA Makoto

  Faculty of Science, Osaka City University

• KOBAYASHI Michikazu

  Faculty of Science, Osaka City University

関連論文

• Energy spectrum of superfluid turbulence : Numerical Analysis of the Gross-Pitaevskii equation with the small scale dissipation(3) Chaos and nonlinear dynamics in dissipative systems(including BEC and pattern formations), Chaos and Nonlinear Dynamics in Q
• Kolmogorov Spectrum of Quantum Turbulence(Condensed Matter : Structure, Mechanical and Thermal Properties)

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