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Dynamical phase transitions in chaot...

Leonel, Edson Denis.

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Dynamical phase transitions in chaotic systems

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Dynamical phase transitions in chaotic systems/ by Edson Denis Leonel.
作者:	Leonel, Edson Denis.
出版者:	Singapore :Springer Nature Singapore : : 2023.,
面頁冊數:	xvi, 74 p. :ill., digital ;24 cm.
內容註:	Posing the problems -- A Hamiltonian and a mapping -- A phenomenological description for chaotic diffusion -- A semi phenomenological description for chaotic diffusion -- A solution for the diffusion equation -- Characterization of a continuous phase transition in an area preserving map -- Scaling invariance for chaotic diffusion in a dissipative standard mapping -- Characterization of a transition from limited to unlimited diffusion -- Billiards with moving boundary -- Suppression of Fermi acceleration in oval billiard -- Suppressing the unlimited energy gain: evidences of a phase transition.
Contained By:	Springer Nature eBook
標題:	Chaotic behavior in systems. -
電子資源:	https://doi.org/10.1007/978-981-99-2244-4
ISBN:	9789819922444

Dynamical phase transitions in chaotic systems
Leonel, Edson Denis.

Dynamical phase transitions in chaotic systems[electronic resource] /by Edson Denis Leonel. - Singapore :Springer Nature Singapore :2023. - xvi, 74 p. :ill., digital ;24 cm. - Nonlinear physical science,1867-8459. - Nonlinear physical science..

Posing the problems -- A Hamiltonian and a mapping -- A phenomenological description for chaotic diffusion -- A semi phenomenological description for chaotic diffusion -- A solution for the diffusion equation -- Characterization of a continuous phase transition in an area preserving map -- Scaling invariance for chaotic diffusion in a dissipative standard mapping -- Characterization of a transition from limited to unlimited diffusion -- Billiards with moving boundary -- Suppression of Fermi acceleration in oval billiard -- Suppressing the unlimited energy gain: evidences of a phase transition.

This book discusses some scaling properties and characterizes two-phase transitions for chaotic dynamics in nonlinear systems described by mappings. The chaotic dynamics is determined by the unpredictability of the time evolution of two very close initial conditions in the phase space. It yields in an exponential divergence from each other as time passes. The chaotic diffusion is investigated, leading to a scaling invariance, a characteristic of a continuous phase transition. Two different types of transitions are considered in the book. One of them considers a transition from integrability to non-integrability observed in a two-dimensional, nonlinear, and area-preserving mapping, hence a conservative dynamics, in the variables action and angle. The other transition considers too the dynamics given by the use of nonlinear mappings and describes a suppression of the unlimited chaotic diffusion for a dissipative standard mapping and an equivalent transition in the suppression of Fermi acceleration in time-dependent billiards. This book allows the readers to understand some of the applicability of scaling theory to phase transitions and other critical dynamics commonly observed in nonlinear systems. That includes a transition from integrability to non-integrability and a transition from limited to unlimited diffusion, and that may also be applied to diffusion in energy, hence in Fermi acceleration. The latter is a hot topic investigated in billiard dynamics that led to many important publications in the last few years. It is a good reference book for senior- or graduate-level students or researchers in dynamical systems and control engineering, mathematics, physics, mechanical and electrical engineering.

ISBN: 9789819922444

Standard No.: 10.1007/978-981-99-2244-4doiSubjects--Topical Terms:

524350
Chaotic behavior in systems.

LC Class. No.: Q172.5.C45

Dewey Class. No.: 003.857

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520 $a This book discusses some scaling properties and characterizes two-phase transitions for chaotic dynamics in nonlinear systems described by mappings. The chaotic dynamics is determined by the unpredictability of the time evolution of two very close initial conditions in the phase space. It yields in an exponential divergence from each other as time passes. The chaotic diffusion is investigated, leading to a scaling invariance, a characteristic of a continuous phase transition. Two different types of transitions are considered in the book. One of them considers a transition from integrability to non-integrability observed in a two-dimensional, nonlinear, and area-preserving mapping, hence a conservative dynamics, in the variables action and angle. The other transition considers too the dynamics given by the use of nonlinear mappings and describes a suppression of the unlimited chaotic diffusion for a dissipative standard mapping and an equivalent transition in the suppression of Fermi acceleration in time-dependent billiards. This book allows the readers to understand some of the applicability of scaling theory to phase transitions and other critical dynamics commonly observed in nonlinear systems. That includes a transition from integrability to non-integrability and a transition from limited to unlimited diffusion, and that may also be applied to diffusion in energy, hence in Fermi acceleration. The latter is a hot topic investigated in billiard dynamics that led to many important publications in the last few years. It is a good reference book for senior- or graduate-level students or researchers in dynamical systems and control engineering, mathematics, physics, mechanical and electrical engineering.
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