Complex energies of the coherent longitudinal optical phonon–plasmon coupled mode according to dynamic mode decomposition analysis

Sakata, Itsushi; Sakata, Takuya; Mizoguchi, K.; Tanaka, Satoshi; Oohata, Goro; Akai, Ichiro; Igarashi, Yasuhiko; Nagano, Yoshihiro; Okada, Masato

doi:10.1038/s41598-021-02413-w

Cited by 5 publications

(1 citation statement)

References 63 publications

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“…More recently, Dynamic Mode Decomposition (DMD) has emerged as a powerful technique, particularly effective in isolating modes that provide direct insight into nonlinear dynamical systems such as Ćuid dynamics, neuroscience, quantum optics, etc. [3][4][5][6][7] .…”

Section: Introductionmentioning

confidence: 99%

Enhancing Spectral Analysis in Nonlinear Dynamics: An Approach Based on Generalized Eigenfunctions from Continuous Spectra

Sakata,

Kawahara

2024

Preprint

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The analysis of complex behavior in empirical data poses significant challenges in various scientific and engineering disciplines. Dynamic Mode Decomposition (DMD) is a widely used method to reveal spectral features of nonlinear dynamical systems without any prior knowledge. However, analyzing the continuous spectrum resulting from chaos and noise is problematic due to its infinite dimensions. We propose a clustering-based method designed to analyze dynamics represented by generalized eigenfunctions associated with continuous spectra. This paper describes data-driven algorithms for comparing generalized eigenfunctions using subspaces. To compute approximate generalized eigenfunctions from data, we use the recently proposed Residual Dynamic Mode Decomposition (ResDMD). To validate the effectiveness of our method, we analyzed 1D signal data affected by thermal noise and 2D time series of coupled chaotic systems exhibiting generalized synchronization. The results reveal dynamic patterns previously obscured by conventional DMD analyses and provide some insights into the complexities of coupled chaos.

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Section: Introductionmentioning

confidence: 99%

Enhancing Spectral Analysis in Nonlinear Dynamics: An Approach Based on Generalized Eigenfunctions from Continuous Spectra

Sakata,

Kawahara

2024

Preprint

Self Cite

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Coexisting ferroelectricity and photoconductivity in doped LN-type ZnSnO3 nanospikes

Barman

Datta

2022

Materials Chemistry and Physics

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Enhancing spectral analysis in nonlinear dynamics with pseudoeigenfunctions from continuous spectra

Sakata,

Kawahara

2024

Sci Rep

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The analysis of complex behavior in empirical data poses significant challenges in various scientific and engineering disciplines. Dynamic Mode Decomposition (DMD) is a widely used method to reveal the spectral features of nonlinear dynamical systems without prior knowledge. However, because of its infinite dimensions, analyzing the continuous spectrum resulting from chaos and noise is problematic. We propose a clustering-based method to analyze dynamics represented by pseudoeigenfunctions associated with continuous spectra. This paper describes data-driven algorithms for comparing pseudoeigenfunctions using subspaces. We used the recently proposed Residual Dynamic Mode Decomposition (ResDMD) to approximate spectral properties from the data. To validate the effectiveness of our method, we analyzed 1D signal data affected by thermal noise and 2D-time series of coupled chaotic systems exhibiting generalized synchronization. The results reveal dynamic patterns previously obscured by conventional DMD analyses and provide insights into coupled chaos’s complexities.

show abstract

Complex energies of the coherent longitudinal optical phonon–plasmon coupled mode according to dynamic mode decomposition analysis

Cited by 5 publications

References 63 publications

Enhancing Spectral Analysis in Nonlinear Dynamics: An Approach Based on Generalized Eigenfunctions from Continuous Spectra

Enhancing Spectral Analysis in Nonlinear Dynamics: An Approach Based on Generalized Eigenfunctions from Continuous Spectra

Coexisting ferroelectricity and photoconductivity in doped LN-type ZnSnO3 nanospikes

Enhancing spectral analysis in nonlinear dynamics with pseudoeigenfunctions from continuous spectra

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