E. Knobloch scite author profile

E. Knobloch

2Publications

2Citation Statements Received

268Citation Statements Given

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Origin, bifurcation structure and stability of localized states in Kerr dispersive optical cavities

Parra-Rivas¹,

Knobloch²,

Gelens³

et al. 2020

Preprint

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Localized coherent structures can form in externally-driven dispersive optical cavities with a Kerr-type nonlinearity. Such systems are described by the Lugiato-Lefever equation, which supports a large variety of dynamical solutions. Here, we review our current knowledge on the formation, stability and bifurcation structure of localized structures in the one-dimensional Lugiato-Lefever equation. We do so by focusing on two main regimes of operation: anomalous and normal second-order dispersion. In the anomalous regime, localized patterns are organized in a homoclinic snaking scenario, which is eventually destroyed, leading to a foliated snaking bifurcation structure. In the normal regime, however, localized structures undergo a different type of bifurcation structure, known as collapsed snaking.

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Organization of spatially localized structures near a codimension-three cusp-Turing bifurcation

Parra-Rivas¹,

Champneys²,

Al-Sahadi³

et al. 2022

Preprint

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A wide variety of stationary or moving spatially localized structures is present in evolution problems on unbounded domains, governed by higher-than-second-order reversible spatial interactions. This work provides a generic unfolding in one spatial dimension of a certain codimension-three singularity that explains the organization of bifurcation diagrams of such localized states in a variety of contexts, ranging from nonlinear optics to fluid mechanics, mathematical biology and beyond. The singularity occurs when a cusp bifurcation associated with the onset of bistability between homogeneous steady states encounters a pattern-forming, or Turing, bifurcation. The latter corresponds to a Hamiltonian-Hopf point of the corresponding spatial dynamics problem. Such codimension-three points are sometimes called Lifshitz points in the physics literature. In the simplest case where the spatial system conserves a first integral, the system is described by a canonical fourth order scalar system. The problem contains three small parameters, two that unfold the cusp bifurcation and one that unfolds the Turing bifurcation. Several cases are revealed, depending on open conditions on the signs of the lowest-order nonlinear terms. Taking the case in which the Turing bifurcation is subcritical, various parameter regimes are considered and the bifurcation diagrams of localized structures are elucidated. A rich bifurcation structure is revealed, which involves transitions between regions of localized periodic patterns generated by homoclinic snaking, and mesa-like patterns with uniform cores. The theory is shown to unify previous numerical results obtained in models arising in nonlinear optics, fluid mechanics, and excitable media more generally.

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E. Knobloch

Origin, bifurcation structure and stability of localized states in Kerr dispersive optical cavities

Organization of spatially localized structures near a codimension-three cusp-Turing bifurcation

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