Computer Assisted Existence Proofs of Lyapunov Orbits at $L_2$ and Transversal Intersections of Invariant Manifolds in the Jupiter--Sun PCR3BP

Capiński, Maciej J.

doi:10.1137/110847366

Cited by 35 publications

(30 citation statements)

References 22 publications

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“…Rigorous numerical investigation of periodic orbits to ODEs became quite standard [2,9,11,24,25,41,45,48,49,50]. To the best of our knowledge, there are very few results regarding computer-assisted verification of bifurcations of periodic orbits of ODEs, and the field remains widely open.…”

Section: Introductionmentioning

confidence: 99%

Validated numerics for period-tupling and touch-and-go bifurcations of symmetric periodic orbits in reversible systems

Walawska

Wilczak

2019

Communications in Nonlinear Science and Numerical Simulation

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We propose a general framework for computer-assisted verification of the presence of symmetry breaking, period-tupling and touch-and-go bifurcations of symmetric periodic orbits for reversible maps. The framework is then adopted to Poincaré maps in reversible autonomous Hamiltonian systems.In order to justify the applicability of the method, we study bifurcations of halo orbits in the Circular Restricted Three Body Problem. We give a computer-assisted proof of the existence of wide branches of halo orbits bifurcating from L 1,2,3 -Lyapunov families and for wide range of mass parameter. For two physically relevant mass parameters we prove, that halo orbits undergo multiple period doubling, quadrupling and third-order touch-and-go bifurcations.

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Section: Introductionmentioning

confidence: 99%

Validated numerics for period-tupling and touch-and-go bifurcations of symmetric periodic orbits in reversible systems

Walawska

Wilczak

2019

Communications in Nonlinear Science and Numerical Simulation

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“…Now we refer to the concept of cones in, e.g., [1,18]. In these references a cone is defined as a quadratic form Q(z) = Q 1 (z) − Q 2 (z) such that Q 1 and Q 2 are positive definite.…”

Section: 3mentioning

confidence: 99%

“…Although Algorithm 7.2 also makes use of the integral form of A I , we should be very careful of estimation criteria for obtaining rigorous enclosures of matrices. 1 A procedure such as Algorithm 7.2 works to prove the existence of Lyapunov functions as long as the above algorithm passes successfully, even if domains does not contain fixed points. An immediate benefit of Algorithm 7.2 as well as Corollary 5 is that we can use better enclosure of matrices associated with B in (4.4).…”

Section: 2mentioning

confidence: 99%

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On the construction of Lyapunov functions with computer assistance

Matsue

Hiwaki

Yamamoto

2017

Journal of Computational and Applied Mathematics

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Abstract. Computer assisted procedures of Lyapunov functions defined in given neighborhoods of fixed points for flows and maps are discussed. We provide a systematic methodology for constructing explicit ranges where quadratic Lyapunov functions exist in two stages; negative definiteness of associating matrices and direct approach. We note that the former is equivalent to the procedure of cones describing enclosures of the stable and the unstable manifolds of invariant sets, which gives us flexible discussions of asymptotic behavior not only around equilibria for flows but also fixed points for maps. Additionally, our procedure admits a re-parameterization of trajectories in terms of values of Lyapunov functions. Several verification examples are shown for discussions of applicability.

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“…The method has also been adapted by Zgliczyński, Simó and Capiński for proofs of normally hyperbolic invariant manifolds [6,8,9]. The above methods have been used and applied to a number of systems including the restricted three body problem [7,11,26,27] rotating Hénon map [6,9], driven logistic map [8], forced damped pendulum [29], and proofs of slow manifolds [19]. All these results rely on suitable definitions of covering relations and cone conditions.…”

Section: Introductionmentioning

confidence: 99%

Geometric proof of strong stable/unstable manifolds with application to the restricted three body problem

Capiński¹,

Wasieczko-Zając²

2015

TMNA

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We present a method for establishing strong stable/unstable manifolds of fixed points for maps and ODEs. The method is based on cone conditions, suitably formulated to allow for application in computer assisted proofs. In the case of ODEs, assumptions follow from estimates on the vector field, and it is not necessary to integrate the system. We apply our method to the restricted three body problem and show that for a given choice of the mass parameter, there exists a homoclinic orbit along matching strong stable/unstable manifolds of one of the libration points.

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Computer Assisted Existence Proofs of Lyapunov Orbits at $L_2$ and Transversal Intersections of Invariant Manifolds in the Jupiter--Sun PCR3BP

Cited by 35 publications

References 22 publications

Validated numerics for period-tupling and touch-and-go bifurcations of symmetric periodic orbits in reversible systems

Validated numerics for period-tupling and touch-and-go bifurcations of symmetric periodic orbits in reversible systems

On the construction of Lyapunov functions with computer assistance

Geometric proof of strong stable/unstable manifolds with application to the restricted three body problem

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