Maciej J. Capiński scite author profile

Maciej J. Capiński

5Publications

187Citation Statements Received

90Citation Statements Given

How they've been cited

124

187

How they cite others

Affiliations

AGH University of Krakow, Jagiellonian University, Institute of Mathematics

Publications

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Geometric proof for normally hyperbolic invariant manifolds

Capiński

Zgliczyński

2015

Journal of Differential Equations

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We present a new proof of the existence of normally hyperbolic manifolds and their whiskers for maps. Our result is not perturbative. Based on the bounds on the map and its derivative, we establish the existence of the manifold within a given neighbourhood. Our proof follows from a graph transform type method and is performed in the state space of the system. We do not require the map to be invertible. From our method follows also the smoothness of the established manifolds, which depends on the smoothness of the map, as well as rate conditions, which follow from bounds on the derivative of the map. Our method is tailor made for rigorous, interval arithmetic based, computer assisted validation of the needed assumptions.

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Cone conditions and covering relations for topologically normally hyperbolic invariant manifolds

Capiński¹,

Zgliczyński²

2011

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Covering relations and the existence of topologically normally hyperbolic invariant sets

Capiński¹

2009

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Beyond the Melnikov method: A computer assisted approach

Capiński

Zgliczyński

2017

Journal of Differential Equations

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We present a Melnikov type approach for establishing transversal intersections of stable/unstable manifolds of perturbed normally hyperbolic invariant manifolds (NHIMs). The method is based on a new geometric proof of the normally hyperbolic invariant manifold theorem, which establishes the existence of a NHIM, together with its associated invariant manifolds and bounds on their first and second derivatives. We do not need to know the explicit formulas for the homoclinic orbits prior to the perturbation. We also do not need to compute any integrals along such homoclinics. All needed bounds are established using rigorous computer assisted numerics. Lastly, and most importantly, the method establishes intersections for an explicit range of parameters, and not only for perturbations that are 'small enough', as is the case in the classical Melnikov approach.

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Existence of a Center Manifold in a Practical Domain around $L_1$ in the Restricted Three-Body Problem

Capiński¹,

Roldán

2012

SIAM J. Appl. Dyn. Syst.

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