Kink dynamics in the $\phi ^4$ model: Asymptotic stability for odd perturbations in the energy space

Kowalczyk, M.; Martel, Yvan; Muñoz, Claudio

doi:10.1090/jams/870

Cited by 109 publications

(193 citation statements)

References 53 publications

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“…In this paper we are inspired by the stability of various patterns studied for wave like equations by Kowalczyk et. al [27,28]. The main point here, is that this method can be applied rather simply in the proof of Theorems 1.4 and 1.6.…”

Section: Introductionmentioning

confidence: 99%

On Stability of Small Solitons of the 1-D NLS with a Trapping Delta Potential

Cuccagna¹,

Maeda²

2019

SIAM J. Math. Anal.

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Section: Introductionmentioning

confidence: 99%

On Stability of Small Solitons of the 1-D NLS with a Trapping Delta Potential

Cuccagna¹,

Maeda²

2019

SIAM J. Math. Anal.

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“…The asymptotic stability analysis of the kink φ K therefore requires to understand the convergence to zero of any small solution to nonlinear Klein-Gordon equations of the type (1.2), see [35]. The remarkable work of Kowalczyk-Martel-Muñoz [22] established the asymptotic stability of the kink with respect to a local energy norm under small, odd, finite energy perturbations, see also the review [23] and references therein. However, this in particular leaves open the question of determining the precise asymptotic behavior of small perturbations, possibly with respect to a stronger topology.…”

Section: Introductionmentioning

confidence: 99%

Scattering for the Klein-Gordon equation with quadratic and variable coefficient cubic nonlinearities

Lindblad

Soffer

2014

Trans. Amer. Math. Soc.

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We obtain sharp decay estimates and asymptotics for small solutions to the one-dimensional Klein-Gordon equation with constant coefficient cubic and spatially localized, variable coefficient cubic nonlinearities. Vector-field techniques to deal with the long-range nature of the cubic nonlinearity become problematic in the presence of variable coefficients. We introduce a novel approach based on pointwise-intime local decay estimates for the Klein-Gordon propagator to overcome this impasse.

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“…The asymptotic stability/nonlinear scattering results of the type discussed in section 6, being based on normal forms ideas, spectral theory of linearized operators, dispersive estimates and low-energy (perturbative) scattering methods, give a local picture of the phase space near families of nonlinear bound states. A recent result, related to this point, is [75]. We also note the important line of research by Merle et al which is based on the monotone evolution properties of appropriately designed local energies (see, for example, in [81,83]) and does not rely on dispersive time-decay estimates of the linearized flow.…”

Section: Discussionmentioning

confidence: 60%

Dynamics of Partial Differential Equations

Wayne¹

2015

Frontiers in Applied Dynamical Systems: Reviews and Tutorials

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The Frontiers in Applied Dynamical Systems (FIADS) covers emerging topics and significant developments in the field of applied dynamical systems. It is a collection of invited review articles by leading researchers in dynamical systems, their applications, and related areas. Contributions in this series should be seen as a portal for a broad audience of researchers in dynamical systems at all levels and can serve as advanced teaching aids for graduate students. Each contribution provides an informal outline of a specific area, an interesting application, a recent technique, or a "how-to" for analytical methods and for computational algorithms, and a list of key references. All articles will be refereed.

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Kink dynamics in the $\phi ^4$ model: Asymptotic stability for odd perturbations in the energy space

Cited by 109 publications

References 53 publications

On Stability of Small Solitons of the 1-D NLS with a Trapping Delta Potential

On Stability of Small Solitons of the 1-D NLS with a Trapping Delta Potential

Scattering for the Klein-Gordon equation with quadratic and variable coefficient cubic nonlinearities

Dynamics of Partial Differential Equations

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