Vortex motion and nonlinear response in coupled noisy phase oscillator lattices under shear stress

Vortex motion and nonlinear response in coupled noisy phase oscillator lattices under shear stress

Vortex motion in coupled phase oscillator lattices is analogous to the dislocation motion in crystals. A single vortex exhibits a glide motion by force at the boundaries. Thermal fluctuations induce the glide motion even below the critical point corresponding to the Peierls stress. The random drift...

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Veröffentlicht in:Physical review. E 2022-11, Vol.106 (5-1), p.054154-054154, Article 054154
1. Verfasser: Sakaguchi, Hidetsugu
Format: Artikel
Sprache:eng
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Zusammenfassung:Vortex motion in coupled phase oscillator lattices is analogous to the dislocation motion in crystals. A single vortex exhibits a glide motion by force at the boundaries. Thermal fluctuations induce the glide motion even below the critical point corresponding to the Peierls stress. The random drift motion is approximated as a random walk in a tilted potential. If the temperature is high, vortices are spontaneously generated. A nonlinear response where the frequency profile is relatively flat in the central region and changes sharply near the boundaries is observed when the vortex density becomes large and nonuniform.
ISSN:2470-0045
2470-0053
DOI:10.1103/PhysRevE.106.054154