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Your search keyword '"Marcel G. Clerc"' showing total 9 results
Start Over Author "Marcel G. Clerc" Journal physical review letters
9 results on '"Marcel G. Clerc"'

1. Nonlinear Localization of Dissipative Modulation Instability

Author

Yiqing Xu, Miro Erkintalo, Stéphane Coen, Caleb Todd, Marcel G. Clerc, M. A. Ferre, Stuart G. Murdoch, and Alexander U. Nielsen

Subjects
Physics, Nonlinear system, Resonator, Classical mechanics, Bistability, Modulation, Plane wave, Dissipative system, General Physics and Astronomy, Instability, Noise (radio)
Abstract

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.

Published
2021

2. Nonreciprocal Coupling Induced Self-Assembled Localized Structures

Author

Marcel G. Clerc, R. G. Rojas, D. Pinto-Ramos, and K. Alfaro-Bittner

Subjects
Physics, Coupling, Condensed matter physics, Physics::Optics, General Physics and Astronomy, Function (mathematics), 01 natural sciences, Self assembled, Nonlinear system, Wavelength, Chain (algebraic topology), Convective instability, 0103 physical sciences, 010306 general physics, Phase diagram
Abstract

Chains of coupled oscillators exhibit energy propagation by means of waves, pulses, and fronts. Nonreciprocal coupling radically modifies the wave dynamics of chains. Based on a prototype model of nonlinear chains with nonreciprocal coupling to nearest neighbors, we study nonlinear wave dynamics. Nonreciprocal coupling induces a convective instability between unstable and stable equilibrium. Increasing the coupling level, the chain presents a propagative pattern, a traveling wave. This emergent phenomenon corresponds to the self-assembly of localized structures. The pattern wavelength is characterized as a function of the coupling. Analytically, the phase diagram is determined and agrees with numerical simulations.

Published
2021

3. Transition to Spatiotemporal Intermittency and Defect Turbulence in Systems under Translational Coupling

Author

Marcel G. Clerc, Gregorio González-Cortés, and F. Alvarez-Garrido

Subjects
Physics, Turbulence, General Physics and Astronomy, Pattern formation, Bifurcation diagram, 01 natural sciences, Instability, law.invention, Coupling (physics), Amplitude, law, Intermittency, 0103 physical sciences, Statistical physics, 010306 general physics, Phenomenology (particle physics)
Abstract

Out of equilibrium systems under the influence of enough energy injection exhibit complex spatiotemporal behaviors. Based on a liquid crystal light valve experiment with translational optical feedback, we observe propagation, spatiotemporal intermittency, and defect turbulence of striped waves. A prototype model of pattern formation with translational coupling shows the same phenomenology. Close to the spatial instability, a local amplitude equation is derived. This amplitude equation allows us to reveal the origin and bifurcation diagram of the observed complex spatiotemporal dynamics. Experimental observations have a qualitative agreement with theoretical findings.

Published
2019

4. Lorenz Bifurcation: Instabilities in Quasireversible Systems

Author

Enrique Tirapegui, Pierre Coullet, and Marcel G. Clerc

Subjects
Nonlinear Sciences::Chaotic Dynamics, Mechanical system, Physics, Classical mechanics, Simple (abstract algebra), Chaotic, General Physics and Astronomy, Lorenz system, Bifurcation
Abstract

We describe the two generic instabilities which arise in quasireversible systems and show that their normal forms are the well-known real Lorenz equations and the Maxwell-Bloch equations. We present for the first time analytic predictions for the appearance of Lorenz chaos and we describe a simple mechanical system which experimentally displays this chaotic behavior.

Published
1999

5. Strong Nonlocal Coupling Stabilizes Localized Structures: An Analysis Based on Front Dynamics

Author

Marcel G. Clerc, C. Fernandez-Oto, Mustapha Tlidi, and Daniel Escaff

Subjects
Physics, Coupling (physics), education.field_of_study, Classical mechanics, Bistability, Kernel (image processing), Dynamics (mechanics), Population, Front (oceanography), General Physics and Astronomy, Nonlinear optics, Phase conjugation, education
Abstract

We investigate the effect of strong nonlocal coupling in bistable spatially extended systems by using a Lorentzian-like kernel. This effect through front interaction drastically alters the space-time dynamics of bistable systems by stabilizing localized structures in one and two dimensions, and by affecting the kinetics law governing their behavior with respect to weak nonlocal and local coupling. We derive an analytical formula for the front interaction law and show that the kinetics governing the formation of localized structures obeys a law inversely proportional to their size to some power. To illustrate this mechanism, we consider two systems, the Nagumo model describing population dynamics and nonlinear optics model describing a ring cavity filled with a left-handed material. Numerical solutions of the governing equations are in close agreement with analytical predictions.

Published
2013

7. Vortex emission accompanies the advection of optical localized structures

Author

Marcel G. Clerc, R. G. Rojas, Florence Haudin, Stefania Residori, and Umberto Bortolozzo

Subjects
Physics, Advection, Phase (waves), General Physics and Astronomy, Nonlinear optics, Pattern formation, Wake, optics, Vortex, Computational physics, Tilt (optics), Classical mechanics, liquid crystals, pattern formation, Gravitational singularity
Abstract

We show that the advection of optical localized structures is accompanied by the emission of vortices, with phase singularities appearing in the wake of the drifting structure. Localized structures are obtained in a light-valve experiment and made to drift by a mirror tilt in the feedback loop. Pairs of oppositely charged vortices are detected for small drifts, whereas for large drifts a vortex array develops. Observations are supported by numerical simulations and linear stability analysis of the system equations and are expected to be generic for a large class of translated optical patterns.

Published
2010

8. Driven front propagation in 1D spatially periodic media

Author

Stefania Residori, Florence Haudin, Ricardo Gabriel Elías, Umberto Bortolozzo, Marcel G. Clerc, and R. G. Rojas

Subjects
Physics, Bistability, business.industry, Front (oceanography), General Physics and Astronomy, Pattern formation, Mechanics, Amplitude, Tilt (optics), Optics, Liquid crystal, Dissipative system, business, Beam (structure)
Abstract

We study front propagation in one-dimensional spatially periodic media. Based on an optical feedback with a spatially amplitude modulated beam, we set up a one-dimensional forced experiment in a nematic liquid crystal cell. By changing the forcing parameters, the front exhibits a pinning effect and oscillatory motion, which are confirmed by numerical simulations for the average liquid crystal tilt angle. A spatially forced dissipative varphi;{4} model, derived at the onset of bistability, accounts qualitatively for the observed dynamics.

Published
2009

9. Additive Noise Induces Front Propagation

Author

Marcel G. Clerc, Enrique Tirapegui, and Claudio Falcón

Subjects
Physics, Wave propagation, Differential equation, business.industry, Front (oceanography), FOS: Physical sciences, General Physics and Astronomy, Pattern Formation and Solitons (nlin.PS), Mechanics, Nonlinear Sciences - Pattern Formation and Solitons, Noise (electronics), Background noise, Core (optical fiber), Optics, Front velocity, business, Nonlinear Sciences::Pattern Formation and Solitons, Brownian motion
Abstract

The propagation of a front connecting a stable homogeneous state with a stable periodic state in the presence of additive noise is studied. The mean velocity was computed both numerically and analitically. The numerics are in good agreement with the analitical prediction., 4 pages, 5 figures

Published
2005

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