Standard

On Transversal Connecting Orbits of Lagrangian Systems in a Nonstationary Force Field: the Newton – Kantorovich Approach. / Ivanov, Alexey V.

в: Regular and Chaotic Dynamics, Том 24, № 4, 2019, стр. 392-417.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Ivanov, AV 2019, 'On Transversal Connecting Orbits of Lagrangian Systems in a Nonstationary Force Field: the Newton – Kantorovich Approach.', Regular and Chaotic Dynamics, Том. 24, № 4, стр. 392-417. https://doi.org/10.1134/S1560354719040038

APA

Ivanov, A. V. (2019). On Transversal Connecting Orbits of Lagrangian Systems in a Nonstationary Force Field: the Newton – Kantorovich Approach. Regular and Chaotic Dynamics, 24(4), 392-417. https://doi.org/10.1134/S1560354719040038

Vancouver

Ivanov AV. On Transversal Connecting Orbits of Lagrangian Systems in a Nonstationary Force Field: the Newton – Kantorovich Approach. Regular and Chaotic Dynamics. 2019;24(4):392-417. https://doi.org/10.1134/S1560354719040038

Author

Ivanov, Alexey V. / On Transversal Connecting Orbits of Lagrangian Systems in a Nonstationary Force Field: the Newton – Kantorovich Approach. в: Regular and Chaotic Dynamics. 2019 ; Том 24, № 4. стр. 392-417.

BibTeX

@article{7520f637058e40ca9b1ac235a7240830,
title = "On Transversal Connecting Orbits of Lagrangian Systems in a Nonstationary Force Field: the Newton – Kantorovich Approach.",
abstract = "We consider a natural Lagrangian system defined on a complete Riemannian manifold being subjected to the action of a non-stationary force field with potential $U(q,t) = f(t)V(q)$. It is assumed that the factor $f(t)$ tends to $\infty$ as $t\to \pm\infty$ and vanishes at a unique point $t_{0}\in \mathbb{R}$. Let $X_{+}$, $X_{-}$ denote the sets of isolated critical points of $V(x)$ at which $U(x,t)$ as a function of $x$ attains its maximum for any fixed $t> t_{0}$ and $t<t_{0}$, respectively. Under nondegeneracy conditions on points of $X_{\pm}$ we apply Newton-Kantorovich type method to study the existence of transversal doubly asymptotic trajectories connecting $X_{-}$ and $X_{+}$. Conditions on the Riemannian manifold and the potential which guarantee the existence of such orbits are presented. Such connecting trajectories are obatained by continuation of geodesics defined in a vicinity of the point $t_{0}$ to the whole real line.",
keywords = "connecting orbits, homoclinics, heteroclinics, nonautonomous Lagrangian system, Newton – Kantorovich method",
author = "Ivanov, {Alexey V.}",
note = "Ivanov, A.V. On Transversal Connecting Orbits of Lagrangian Systems in a Nonstationary Force Field: the Newton – Kantorovich Approach. Regul. Chaot. Dyn. 24, 392–417 (2019). https://doi.org/10.1134/S1560354719040038",
year = "2019",
doi = "10.1134/S1560354719040038",
language = "English",
volume = "24",
pages = "392--417",
journal = "Regular and Chaotic Dynamics",
issn = "1560-3547",
publisher = "МАИК {"}Наука/Интерпериодика{"}",
number = "4",

}

RIS

TY - JOUR

T1 - On Transversal Connecting Orbits of Lagrangian Systems in a Nonstationary Force Field: the Newton – Kantorovich Approach.

AU - Ivanov, Alexey V.

N1 - Ivanov, A.V. On Transversal Connecting Orbits of Lagrangian Systems in a Nonstationary Force Field: the Newton – Kantorovich Approach. Regul. Chaot. Dyn. 24, 392–417 (2019). https://doi.org/10.1134/S1560354719040038

PY - 2019

Y1 - 2019

N2 - We consider a natural Lagrangian system defined on a complete Riemannian manifold being subjected to the action of a non-stationary force field with potential $U(q,t) = f(t)V(q)$. It is assumed that the factor $f(t)$ tends to $\infty$ as $t\to \pm\infty$ and vanishes at a unique point $t_{0}\in \mathbb{R}$. Let $X_{+}$, $X_{-}$ denote the sets of isolated critical points of $V(x)$ at which $U(x,t)$ as a function of $x$ attains its maximum for any fixed $t> t_{0}$ and $t<t_{0}$, respectively. Under nondegeneracy conditions on points of $X_{\pm}$ we apply Newton-Kantorovich type method to study the existence of transversal doubly asymptotic trajectories connecting $X_{-}$ and $X_{+}$. Conditions on the Riemannian manifold and the potential which guarantee the existence of such orbits are presented. Such connecting trajectories are obatained by continuation of geodesics defined in a vicinity of the point $t_{0}$ to the whole real line.

AB - We consider a natural Lagrangian system defined on a complete Riemannian manifold being subjected to the action of a non-stationary force field with potential $U(q,t) = f(t)V(q)$. It is assumed that the factor $f(t)$ tends to $\infty$ as $t\to \pm\infty$ and vanishes at a unique point $t_{0}\in \mathbb{R}$. Let $X_{+}$, $X_{-}$ denote the sets of isolated critical points of $V(x)$ at which $U(x,t)$ as a function of $x$ attains its maximum for any fixed $t> t_{0}$ and $t<t_{0}$, respectively. Under nondegeneracy conditions on points of $X_{\pm}$ we apply Newton-Kantorovich type method to study the existence of transversal doubly asymptotic trajectories connecting $X_{-}$ and $X_{+}$. Conditions on the Riemannian manifold and the potential which guarantee the existence of such orbits are presented. Such connecting trajectories are obatained by continuation of geodesics defined in a vicinity of the point $t_{0}$ to the whole real line.

KW - connecting orbits

KW - homoclinics

KW - heteroclinics

KW - nonautonomous Lagrangian system

KW - Newton – Kantorovich method

U2 - 10.1134/S1560354719040038

DO - 10.1134/S1560354719040038

M3 - Article

VL - 24

SP - 392

EP - 417

JO - Regular and Chaotic Dynamics

JF - Regular and Chaotic Dynamics

SN - 1560-3547

IS - 4

ER -

ID: 50653191