2003
DOI: 10.1103/physreve.68.065203
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Resonant emergence of global and local spatiotemporal order in a nonlinear field model

Abstract: We investigate the nonequilibrium evolution of a scalar field in (2+1) dimensions. The field is set in a double-well potential in contact (open) or not (closed) with a heat bath. For closed systems, we observe the synchronized emergence of coherent spatiotemporal configurations, identified with oscillons. This initial global ordering degenerates into localized order until all oscillons disappear. We show that the synchronization is driven by resonant parametric oscillations of the field's zero mode and that lo… Show more

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Cited by 40 publications
(57 citation statements)
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“…We will compute the change in relative configurational entropy as the field is tossed out of equilibrium during the symmetry-breaking process. Previous work has shown how, for certain types of quench, oscillons naturally emerge during symmetry breaking [15,17]. Our results show quantitatively that the emergence of these localized coherent structures coincide with the largest departures from equilibrium and that they carry the most information content, in the sense defined in Section III.…”
Section: Introductionsupporting
confidence: 59%
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“…We will compute the change in relative configurational entropy as the field is tossed out of equilibrium during the symmetry-breaking process. Previous work has shown how, for certain types of quench, oscillons naturally emerge during symmetry breaking [15,17]. Our results show quantitatively that the emergence of these localized coherent structures coincide with the largest departures from equilibrium and that they carry the most information content, in the sense defined in Section III.…”
Section: Introductionsupporting
confidence: 59%
“…The low k, out of equilibrium modes that are parametrically amplified after the quench are the ones responsible for oscillon formation. Oscillons emerge synchronously after the quench as the system is tossed out of equilibrium, and then slowly disappear as the field evolves towards its new equilibrium state [15,17].…”
Section: B Hartree Approximation and Oscillon Emergencementioning
confidence: 99%
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