Franziska Peter scite author profile

Franziska Peter

4Publications

29Citation Statements Received

94Citation Statements Given

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University of Potsdam

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Transition to collective oscillations in finite Kuramoto ensembles

Peter

Pikovsky

2018

Phys. Rev. E

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We present an alternative approach to finite-size effects around the synchronization transition in the standard Kuramoto model. Our main focus lies on the conditions under which a collective oscillatory mode is well defined. For this purpose, the minimal value of the amplitude of the complex Kuramoto order parameter appears as a proper indicator. The dependence of this minimum on coupling strength varies due to sampling variations and correlates with the sample kurtosis of the natural frequency distribution. The skewness of the frequency sample determines the frequency of the resulting collective mode. The effects of kurtosis and skewness hold in the thermodynamic limit of infinite ensembles. We prove this by integrating a self-consistency equation for the complex Kuramoto order parameter for two families of distributions with controlled kurtosis and skewness, respectively.

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Microscopic correlations in the finite-size Kuramoto model of coupled oscillators

2019

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Super-critical Kuramoto oscillators with distributed frequencies separate into two disjoint groups: an ordered one locked to the mean field, and a disordered one consisting of effectively decoupled oscillators -at least so in the thermodynamic limit. In finite ensembles, in contrast, such clear separation fails: The mean field fluctuates due to finite-size effects and thereby induces order in the disordered group. To our best knowledge, this publication is the first to reveal such an effect, similar to noise-induced synchronization, in a purely deterministic system. We start by modeling the situation as a stationary mean field with additional white noise acting on a pair of unlocked Kuramoto oscillators. An analytical expression shows that the cross-correlation between the two increases with decreasing ratio of natural frequency difference and noise intensity. In a deterministic finite Kuramoto model, the strength of the mean field fluctuations is inextricably linked to the typical natural frequency difference. Therefore, we let a fluctuating mean field, generated by a finite ensemble of active oscillators, act on pairs of passive oscillators with a microscopic natural frequency difference between which we then measure the cross-correlation, at both super-and subcritical coupling.

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Transition to synchrony in finite Kuramoto ensembles

Peter¹

2019

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Data for: RTransferEntropy: Measuring information flow between time series with effective transfer entropy in R

Dimpfl¹,

Zimmermann²,

Behrendt³

et al. 2019

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Franziska Peter

Transition to collective oscillations in finite Kuramoto ensembles

Microscopic correlations in the finite-size Kuramoto model of coupled oscillators

Transition to synchrony in finite Kuramoto ensembles

Data for: RTransferEntropy: Measuring information flow between time series with effective transfer entropy in R

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