Fluctuation Spectrum for a New Type of Intermittency in a Coupled Electronic Circuit

スポンサーリンク

概要

• 論文の詳細を見る

• A new type of intermittency associated with the tramasition from uniform tononuniform chaos in a coupled electronic circuit is studied by means of the fluctuation spectrum theory. The time series are constructed by taking the n-th power oforiginal experimental data obtained near the intermittent transition point. The infer-mittent behavior is enhanced as the power n is increased. 'two types of scaling lawsare found for the fluctuation spectra a(cv)'s.

• 社団法人日本物理学会の論文
• 1990-08-15

著者

• FUJISAKA Hirokazu

  Department of Physics,Kyushu University

• Yamada Tomoji

  Division Of Electronic Physics Kyushu Institute Of Technology

• Fukushima Kazuhiro

  Faculty Of Education Kumamoto University

• Fukushima Kazuhiro

  熊本大学教育学部

• Yamada T

  Kyushu Inst. Technol. Kitakyushu Jpn

• Fukushima K

  Department Of Physics University Of Tokyo:center For Theoretical Physics Massachusetts Institute Of

• Fukushima K

  Kumamoto Univ.

• YAZAKI Taichi

  Department of Physics,Aichi University of Education

• Fujisaka Hirokazu

  Department Of Applied Analysis And Complex Dynamical Systems Graduate School Of Informatics Kyoto Un

• 藤坂 博

  Department Of Applied Analysis And Complex Dynamical Systems Graduate School Of Informatics Kyoto Un

• Yamada Tomoji

  Division Of Electronic Physics Faculty Of Engineering Kyushu Institute Of Technology

• YAZAKI Taichi

  Department of Physics, Aichi University of Education

関連論文

• Phenomenological Determination of Scaling Exponents in Two-Dimensional Decaying Turbulence : Condensed Matter and Statistical Physics
• Intermittency Caused by Chaotic Modulation. I : Analysis with a Multiplicative Noise Model : General and Mathematical Physics
• Amplitude Equation of Higher-Dimensional Nikolaevskii Turbulence
• Modeling Chaotic Evolution with Nonlinear Langevin Dynamics
• Asymptotic Behavior of the q-th Order Intermittency Exponent in Fully Developed Turbulence : Classical Phenomenology and Applications
• Dynamical Effects on the ^9Li-n Interaction Induced by Pauli Blocking of the J^π = 0^+ pairing Correlation : Nuclear Physics
• Highly Excited Odd-Parity Resonant States of ^6Li around E_x≃18〜27 MeV with the Complex-Scaled ^3He+t Resonating Group Method : Nuclear Physics
• Hypernuclei and Deep Hole States
• Possible Existence of Light Σ Hypernuclei
• A Review on Highly Excited States of Light Λ-Hypernuclei
• Dynamical Correlations for the Kuramoto-Sivashinsky Equation(Condensed Matter and Statistical Physics)
• Determination of Chaotic Dynamical Correlations in Terms of Unstable Periodic Orbits(Condensed Matter and Statistical Physics)
• Self-Organization in a Spin Model of Chaos Neural Network
• Chaotic Synchronization in a Five-Star-Coupled Phase-Locked Loop System
• Self-Similarity and Energy-Dissipation Rate Fluctuations in Turbulence
• Self-Similarity and Energy-Dissipation Rate Fluctuations in Turbulence
• Fidonacci Diffraction Grating
• Order Parameters with Higher Dimensionful Composite Fields
• Fluctuation Spectrum for a New Type of Intermittency in a Coupled Electronic Circuit
• A New Type of Intermittency in an Electronic Circuit : Complex Dynamics in Nonlinear Systems
• Transverse Front Instability in Bistable Systems with Long-Range Interactions(Condensed Matter and Statistical Physics)
• Derivation of Phase Dynamics in Non-Locally Distributed Systems with Periodic Structures in Either Space or Time(Condensed Matter and Statistical Physics)
• Pattern Formation in Swift-Hohenberg Equation under an Oscillating Field(Oscillation, Chaos and Network Dynamics in Nonlinear Science)
• PATTERN FORMATIONS IN REACTION-DIFFUSION SYSTEM(Session IV : Structures & Patterns, The 1st Tohwa University International Meeting on Statistical Physics Theories, Experiments and Computer Simulations)
• Stochastic Model of Chaotic Phase Synchronization. II(Condensed Matter and Statistical Physics)
• Stochastic Model of Chaotic Phase Synchronization. I(Condensed Matter and Statistical Physics)
• Wave Propagation in a Fibonacci Transmission Line
• Phase Diffusion in Chaotic Oscillators System(Oscillation, Chaos and Network Dynamics in Nonlinear Science)
• Lyapunov Spectrum in a Four-Coupled Rossler Oscillator(Oscillation, Chaos and Network Dynamics in Nonlinear Science)
• Nonlinear Effect on the First Passage Time Distribution
• Chaotic Synchronization in a Five-Star-Coupled Phase-Locked Loop System
• Statistical Characterization of a Set of Random Hamiltonians : Order-q Free Energy and Fluctuation Spectrum
• On-Off Intermittency Associated with the Breakdown of One-Dimensional Motion
• An Intermittency Caused by Kink-Antikink Interaction in a Perturbed Sine-Gordon Equation System
• Type-III Intermittency in a Coupled Nonlinear LCR Circuit
• Mapping Model of Chaotic Phase Synchronization(Condensed Matter and Statistical Physics)
• Σ^- Atoms and ^_He Hypernucleus with Σ-N Interactions
• 25aZB-8 雑音に誘起された対流発生に見られる間欠性
• Perturbation Method for φ^4-Field Equation
• Scaling Properties of Characteristic Exponents in a Coupled-Chaos System
• Self-Similarity Dynamics of On-Off Intermittency
• Fluctuation Spectrum Theory of Ising Spin Sequences : A New Approach to Ising Spin Patterns : General and Mathematical Physics
• Synchronized States in Asymmetric Coupled Map Systems : Condensed Matter and Statistical Physics
• Characterization of Various Statistics of Diffusive Motion
• TURING INSTABILITY IN THE OREGONATOR MODEL(Session IV : Structures & Patterns, The 1st Tohwa University International Meeting on Statistical Physics Theories, Experiments and Computer Simulations)
• Fluctuation Spectrum and Multicorrelation--Application to low Dimensional Dynamical Systems (統計物理学の展開と応用--多様性の中の類似性(研究会報告))
• ORDERING PROCESS AND BLOCH WALL DYNAMICS IN NEARLY 1D ANISOTROPIC SPIN SYSTEM(Session IV : Structures & Patterns, The 1st Tohwa University International Meeting on Statistical Physics Theories, Experiments and Computer Simulations)
• Noisy Sine-Circle Map as a Model of Chaotic Phase Synchronization(Oscillation, Chaos and Network Dynamics in Nonlinear Science)
• Wandering Behavior of the Chaotic Itinerancy in an Oscillator Neural Network Model(Oscillation, Chaos and Network Dynamics in Nonlinear Science)
• A New Expansion of Dynamical Correlations in Stochastic Processes and Chaotic Dynamics(Condensed Matter and Statistical Physics)
• Magnetic Domain Wall Dynamics Associated with the Dynamic Phase Transition(Oscillation, Chaos and Network Dynamics in Nonlinear Science)
• Intermittency Caused by Chaotic Modulation. II : Lyapunov Exponent, Fractal Structure and Power Spectrum : General of Theoretical Physics
• Dynamic Scaling Law of Order-q Time Correlation Function : General and Mathematical Physics
• Continued Fraction Expansion of Fluctuation Spectrum and Generalized Time Correlation
• "Thermodynamics", Temporal Correlations and Scaling Laws : Complex Dynamics in Nonlinear Systems
• Analytic Properties of Characteristic Exponents for Chaotic Dynamical Systems : General and Mathematical Physics
• Characterization of Statistically Homogeneous Fluctuations : Fluctuation Spectrum and Spatial Correlation : Condensed Matter and Statistical Physics
• Theory of Diffusion and Intermittency in Chaotic Systems.II : Physical Picture for Non-Perturbative Non-Diffusive Motion : Condensed Matter and Statistical Physics
• On-off Intermittency in a Four-Dimensional Poincare Map
• Fluctuation-Spectrum Approach to Anomalous Enhancement of Diffusive Motion in Chaotic Dynamics : General and Mathematical Physics
• New Asymptotic Law Governing Overall Temporal Correlations in Chaotic Systems : Ensemble Homogenization and Order-q Power Spectrum : General and Mathematical Physics
• Theory of Diffusion and Intermittency in Chaotic Systems : Condensed Matter and Statistical Physics
• A Coupled Oscillatory-Reaction System Exhibiting Bifurcation Scheme Leading to a Chaos
• Fluctuation Renormalization in Nonlinear Dynamics
• Circuit Simulation of Conversion of Stability Features near Hopf Bifurcation Using Time-Delayed Feedback Coupling
• Statistical Dynamics of Chaotic Flows
• A New Expansion of the Master Equation
• Intermittency Associated with the Breakdown of the Chaos Symmetry
• Stability Theory of Synchronized Motion in Coupled-Oscillator Systems
• Theoretical Study of a Chemical Turbulence
• A Maximum Principle for Determining the Intermittency Exponent μ of Fully Developed Steady Turbulence
• Theory of Diffusion and Intermittency in Chaotic system. III : New Approach to Temporal Correlations
• Stability Theory of Synchronized Motion in Coupled-Oscillator Systems. IV : Instability of Synchronized Chaos and New Intermittency : Condensed Matter and Statistical Physics
• Intermittency Caused By Chaotic Modulation. III : Self-Similarity and Higher Order Correlation Functions : General and Mathematical Physics
• Scaling Structures of Free-Energy Fluctuations in a One-Dimensional Dilute Ising Model : General and Mathematical Physics
• Breakdown of Chaos Symmetry and Intermittency in Band-Splitting Phenomena : General and Mathematical Physics
• Scaling Behaviors of Characteristic Exponents near Chaotic Transition Points : Condensed Matter and Statistical Physics
• On the β-Model of Intermittent Fully-Developed Turbulence
• Reduction of Variables and Processes in Macrodynamics
• Stability Theory of Synchronized Motion in Coupled-Oscillator Systems. II : The Mapping Approach
• Possibility of Soft-Mode Turbulence in Reaction-Diffusion Systems
• New Approach to Multiplicative Stochastic Processes. II : Infinite Number of Time Correlations : Condensed Matter and Statistical Physics
• A Fluctuation Theory of Local Fractal Dimensions
• A New Intermittency in Coupled Dynamical Systems
• Stability Theory of Synchronized Motion in Coupled-Oscillator Systems. III : Mapping Model for Continuous System : Condensed Matter and Statistical Physics
• Experimental Determination of the Evolution Equation for Thermally Induced Acoustic Oscillations
• A New Expansion of Dynamical Correlations in Stochastic Processes and Chaotic Dynamics(Condensed Matter and Statistical Physics)
• A New Mapping Model of Spatiotemporal Dynamics in Oscillatory Media : Condensed Matter and Statistical Physics
• Characterization of Various Statistics of Diffusive Motion
• Measurement of Work Generation and Improvement in Performance of a Pulse Tube Engine

もっと見る 閉じる

スポンサーリンク