Stochastic Model of Chaotic Phase Synchronization. II(Condensed Matter and Statistical Physics)
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概要
- 論文の詳細を見る
A stochastic model of chaotic phase synchronization (CPS) introduced in a previous paper is analyzed using approximate methods in two ways that differ from those employed in the previous paper. The rotation number and the diffusion constant of the phase difference are formulated with a stochastic model for the phase slips based on an adiabatic approximation and a scaling analysis employing a Gaussian white noise approximation in the limit of a short correlation time of the noise term. Moreover, the asymmetric peak of the phase diffusion constant due to critical enhancement of chaotic fluctuations is considered. Through these analyses, characteristic properties of the CPS transition are elucidated.
- 理論物理学刊行会の論文
- 2008-02-25
著者
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HORITA Takehiko
Department of Mathematical Sciences, Osaka Prefecture University
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Ouchi Katsuya
Kobe Design University
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FUJISAKA Hirokazu
Department of Physics,Kyushu University
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Yamada Tomoji
Kit Senior Academy
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Horita Takehiko
Department Of Control Engineering And Science Kyushu Institute Of Technology
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Fujisaka Hirokazu
Department Of Applied Analysis And Complex Dynamical Systems Graduate School Of Informatics Kyoto Un
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Fujisaka Hirokazu
Department Of Physics Kyushu University
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Fujisaka Hirokazu
Kyushu University
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Fujisaka Hirokazu
Department Of Applied Analysis And Complex Dynamical Systems Graduate School Of Informatics Kyoto Un
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Fujisaka Hirokazu
Department Of Applied Analysis And Complex Dynamical Systems Graduate School Of Informatics Kyoto Un
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Fujisaka Hirokazu
Department Of Applied Analysis And Complex Dynamical Systems Graduate School Of Informatics Kyoto Un
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Fujisaka Hirokazu
Department Of Applied Analysis And Complex Dynamical Systems Graduate School Of Informatics Kyoto Un
-
Fujisaka Hirokazu
Department Of Applied Analysis And Complex Dynamical Systems Kyoto University
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Fujisaka Hirokazu
Department Of Applied Analysis And Complex Dynamical Systems Graduate School Of Informatics Kyoto Un
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Ouchi Katsuya
Kobe Design Univ. Kobe Jpn
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FUJISAKA Hirokazu
Department of Applied Analysis and Complex Dynamical Systems, Kyoto University
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