Global dynamics visualisation from Lagrangian Descriptors: Applications to discrete and continuous systems

Jerome Daquin; Remi PEDENON-ORLANDUCCI; Makrina  Agaoglou; Guillermo  Garcia-Sanchez; Ana Maria Mancho

doi:10.1016/j.physd.2022.133520

Global dynamics visualisation from Lagrangian Descriptors: Applications to discrete and continuous systems

Jerome Daquin, Remi PEDENON-ORLANDUCCI, Makrina Agaoglou, Guillermo Garcia-Sanchez, Ana Maria Mancho

Namur Institute for Complex Systems

Research output: Contribution to journal › Article › peer-review

Abstract

This paper introduces a new global dynamics and chaos indicator based on the method of Lagrangian Descriptor apt for discriminating ordered and deterministic chaotic motions in multidimensional systems. The selected implementation of this method requires only the knowledge of orbits on finite time windows and is free of the computation of the tangent vector dynamics (i.e., variational equations
are not needed). To demonstrate its ability in visualising different dynamical behaviours, in particular for highlighting chaotic regions, several stability maps of classical systems, obtained with different phase space methods, are reproduced. The benchmark examples are rooted in discrete and continuous nearly-integrable dynamical systems, with prominent features played by resonances. These include
the Chirikov standard map, higher dimensional symplectic and volume preserving maps, fundamental models of resonances, and a 3 degrees-of-freedom nearly-integrable Hamiltonian system with a dense web of resonances. The indicator thus appears to be relevant for understanding phase space transport mediated by resonances in nearly-integrable system, as ubiquitous in celestial mechanics or
astrodynamics.

Original language	English
Article number	133520
Journal	Physica D: Nonlinear Phenomena
Volume	442
DOIs	https://doi.org/10.1016/j.physd.2022.133520
Publication status	Published - 15 Dec 2022

Keywords

Finite time chaos indicator
Global dynamics
Lagrangian Descriptor
Phase space methods

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10.1016/j.physd.2022.133520

Cite this

@article{ff99ea07150446f08561848206b66345,

title = "Global dynamics visualisation from Lagrangian Descriptors: Applications to discrete and continuous systems",

abstract = "This paper introduces a new global dynamics and chaos indicator based on the method of Lagrangian Descriptor apt for discriminating ordered and deterministic chaotic motions in multidimensional systems. The selected implementation of this method requires only the knowledge of orbits on finite time windows and is free of the computation of the tangent vector dynamics (i.e., variational equationsare not needed). To demonstrate its ability in visualising different dynamical behaviours, in particular for highlighting chaotic regions, several stability maps of classical systems, obtained with different phase space methods, are reproduced. The benchmark examples are rooted in discrete and continuous nearly-integrable dynamical systems, with prominent features played by resonances. These includethe Chirikov standard map, higher dimensional symplectic and volume preserving maps, fundamental models of resonances, and a 3 degrees-of-freedom nearly-integrable Hamiltonian system with a dense web of resonances. The indicator thus appears to be relevant for understanding phase space transport mediated by resonances in nearly-integrable system, as ubiquitous in celestial mechanics orastrodynamics.",

keywords = "Finite time chaos indicator, Global dynamics, Lagrangian Descriptor, Phase space methods",

author = "Jerome Daquin and Remi PEDENON-ORLANDUCCI and Makrina Agaoglou and Guillermo Garcia-Sanchez and Mancho, {Ana Maria}",

note = "Funding Information: The authors are very grateful to V{\'i}ctor J. Garc{\'i}a-Garrido and Stephen Wiggins for bringing to their knowledge their recent Refs. [44,47] and useful comments and suggestions. J.D. acknowledges warmly discussions and feedback from Carolina Charalambous, Anne Lemaitre and Timoteo Carletti. J.D. is a postdoctoral researcher of the “Fonds de la Recherche Scientifique” - FNRS. M.A. acknowledges support from the grant CEX2019-000904-S and IJC2019-040168-I funded by: MCIN/AEI/ 10.13039/ 501100011033. A.M.M acknowledges support from grant PID2021-123348OB-I00 funded by MCIN/ AEI /10.13039/501100011033/ and by FEDER A way to make Europe. Funding Information: The authors are very grateful to V{\'i}ctor J. Garc{\'i}a-Garrido and Stephen Wiggins for bringing to their knowledge their recent Refs. [44,47] and useful comments and suggestions. J. D. acknowledges warmly discussions and feedback from Carolina Charalambous, Anne Lemaitre and Timoteo Carletti. J. D. is a postdoctoral researcher of the “Fonds de la Recherche Scientifique” - FNRS. M. A. acknowledges support from the grant CEX2019-000904-S and IJC2019-040168-I funded by: MCIN/AEI/ 10.13039/ 501100011033. A.M. M acknowledges support from grant PID2021-123348OB-I00 funded by MCIN/ AEI /10.13039/501100011033/ and by FEDER A way to make Europe. Publisher Copyright: {\textcopyright} 2022 Elsevier B.V.",

year = "2022",

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doi = "10.1016/j.physd.2022.133520",

language = "English",

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AU - PEDENON-ORLANDUCCI, Remi

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AU - Garcia-Sanchez, Guillermo

AU - Mancho, Ana Maria

N1 - Funding Information: The authors are very grateful to Víctor J. García-Garrido and Stephen Wiggins for bringing to their knowledge their recent Refs. [44,47] and useful comments and suggestions. J.D. acknowledges warmly discussions and feedback from Carolina Charalambous, Anne Lemaitre and Timoteo Carletti. J.D. is a postdoctoral researcher of the “Fonds de la Recherche Scientifique” - FNRS. M.A. acknowledges support from the grant CEX2019-000904-S and IJC2019-040168-I funded by: MCIN/AEI/ 10.13039/ 501100011033. A.M.M acknowledges support from grant PID2021-123348OB-I00 funded by MCIN/ AEI /10.13039/501100011033/ and by FEDER A way to make Europe. Funding Information: The authors are very grateful to Víctor J. García-Garrido and Stephen Wiggins for bringing to their knowledge their recent Refs. [44,47] and useful comments and suggestions. J. D. acknowledges warmly discussions and feedback from Carolina Charalambous, Anne Lemaitre and Timoteo Carletti. J. D. is a postdoctoral researcher of the “Fonds de la Recherche Scientifique” - FNRS. M. A. acknowledges support from the grant CEX2019-000904-S and IJC2019-040168-I funded by: MCIN/AEI/ 10.13039/ 501100011033. A.M. M acknowledges support from grant PID2021-123348OB-I00 funded by MCIN/ AEI /10.13039/501100011033/ and by FEDER A way to make Europe. Publisher Copyright: © 2022 Elsevier B.V.

PY - 2022/12/15

Y1 - 2022/12/15

N2 - This paper introduces a new global dynamics and chaos indicator based on the method of Lagrangian Descriptor apt for discriminating ordered and deterministic chaotic motions in multidimensional systems. The selected implementation of this method requires only the knowledge of orbits on finite time windows and is free of the computation of the tangent vector dynamics (i.e., variational equationsare not needed). To demonstrate its ability in visualising different dynamical behaviours, in particular for highlighting chaotic regions, several stability maps of classical systems, obtained with different phase space methods, are reproduced. The benchmark examples are rooted in discrete and continuous nearly-integrable dynamical systems, with prominent features played by resonances. These includethe Chirikov standard map, higher dimensional symplectic and volume preserving maps, fundamental models of resonances, and a 3 degrees-of-freedom nearly-integrable Hamiltonian system with a dense web of resonances. The indicator thus appears to be relevant for understanding phase space transport mediated by resonances in nearly-integrable system, as ubiquitous in celestial mechanics orastrodynamics.

AB - This paper introduces a new global dynamics and chaos indicator based on the method of Lagrangian Descriptor apt for discriminating ordered and deterministic chaotic motions in multidimensional systems. The selected implementation of this method requires only the knowledge of orbits on finite time windows and is free of the computation of the tangent vector dynamics (i.e., variational equationsare not needed). To demonstrate its ability in visualising different dynamical behaviours, in particular for highlighting chaotic regions, several stability maps of classical systems, obtained with different phase space methods, are reproduced. The benchmark examples are rooted in discrete and continuous nearly-integrable dynamical systems, with prominent features played by resonances. These includethe Chirikov standard map, higher dimensional symplectic and volume preserving maps, fundamental models of resonances, and a 3 degrees-of-freedom nearly-integrable Hamiltonian system with a dense web of resonances. The indicator thus appears to be relevant for understanding phase space transport mediated by resonances in nearly-integrable system, as ubiquitous in celestial mechanics orastrodynamics.

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DO - 10.1016/j.physd.2022.133520

M3 - Article

SN - 0167-2789

VL - 442

JO - Physica D: Nonlinear Phenomena

JF - Physica D: Nonlinear Phenomena

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ER -

Global dynamics visualisation from Lagrangian Descriptors: Applications to discrete and continuous systems

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