Nonlinear Localization of Dissipative Modulation Instability

Modulation instability (MI) in the presence of noise typically leads to an irreversible and complete disintegration of a plane wave background. Here we report on experiments performed in a coherently driven nonlinear optical resonator that demonstrate nonlinear localization of dissipative MI: format...

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Veröffentlicht in:	Physical review letters 2021-09, Vol.127 (12), p.123901-123901, Article 123901
Hauptverfasser:	Nielsen, Alexander U., Xu, Yiqing, Todd, Caleb, Ferre, Michel, Clerc, Marcel G., Coen, Stephane, Murdoch, Stuart G., Erkintalo, Miro
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Sprache:	eng
Schlagworte:	Bistability Disintegration Domains Localization Modulation Nonlinear dynamics Optical resonators Physical Sciences Physics Physics, Multidisciplinary Plane waves Science & Technology
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container_title	Physical review letters
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creator	Nielsen, Alexander U. Xu, Yiqing Todd, Caleb Ferre, Michel Clerc, Marcel G. Coen, Stephane Murdoch, Stuart G. Erkintalo, Miro
description	Modulation instability (MI) in the presence of noise typically leads to an irreversible and complete disintegration of a plane wave background. Here we report on experiments performed in a coherently driven nonlinear optical resonator that demonstrate nonlinear localization of dissipative MI: formation of persisting domains of MI-driven spatiotemporal chaos surrounded by a stable quasi-plane-wave background. The persisting localization ensues from a combination of bistability and complex spatiotemporal nonlinear dynamics that together permit a locally induced domain of MI to be pinned by a shallow modulation on the plane wave background. We further show that the localized domains of spatiotemporal chaos can be individually addressed-turned on and off at will-and we explore their transport behavior as the strength of the pinning is controlled. Our results reveal new fundamental dynamics at the interface of front dynamics and MI, and offer a route for tailored patterns of noiselike bursts of light.
doi_str_mv	10.1103/PhysRevLett.127.123901
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subjects	Bistability Disintegration Domains Localization Modulation Nonlinear dynamics Optical resonators Physical Sciences Physics Physics, Multidisciplinary Plane waves Science & Technology
title	Nonlinear Localization of Dissipative Modulation Instability
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