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Physics Today, 1995
Scientists in many fields are recognizing that the systems they study often exhibit a type of time evolution known as chaos. Its hallmark is wild, unpredictable behavior, a state often perplexing and unwelcome to those who encounter it. Indeed this highly structured and deterministic phenomenon was in the past frequently mistaken for noise and viewed ...
Edward Ott, Mark Spano
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Scientists in many fields are recognizing that the systems they study often exhibit a type of time evolution known as chaos. Its hallmark is wild, unpredictable behavior, a state often perplexing and unwelcome to those who encounter it. Indeed this highly structured and deterministic phenomenon was in the past frequently mistaken for noise and viewed ...
Edward Ott, Mark Spano
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Chaos, Solitons & Fractals, 1996
zbMATH Open Web Interface contents unavailable due to conflicting licenses.
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zbMATH Open Web Interface contents unavailable due to conflicting licenses.
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Chaos: An Interdisciplinary Journal of Nonlinear Science, 1993
In this paper we present an overview of important recent results in the study of a very controversial topic, the so-called quantum chaos. The theoretical and numerical results are compared with real laboratory experiments with special emphasis on the problem of ionization of hydrogen atoms in external microwave fields.
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In this paper we present an overview of important recent results in the study of a very controversial topic, the so-called quantum chaos. The theoretical and numerical results are compared with real laboratory experiments with special emphasis on the problem of ionization of hydrogen atoms in external microwave fields.
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The Wiener-Askey Polynomial Chaos for Stochastic Differential Equations
SIAM Journal on Scientific Computing, 2002Dongbin Xiu, G. Karniadakis
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Philosophy of Science, 2015
A dynamical system is calledchaoticif small changes to its initial conditions can create large changes in its behavior. By analogy, we call a dynamical systemstructurally chaoticif small changes to the equations describing the evolution of the system produce large changes in its behavior.
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A dynamical system is calledchaoticif small changes to its initial conditions can create large changes in its behavior. By analogy, we call a dynamical systemstructurally chaoticif small changes to the equations describing the evolution of the system produce large changes in its behavior.
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Ergodic theory of chaos and strange attractors
, 1985J. Eckmann, D. Ruelle
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Oscillation and chaos in physiological control systems.
Science, 1977M. Mackey, L. Glass
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Introduction to Applied Nonlinear Dynamical Systems and Chaos
, 1989S. Wiggins
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