Ott–Antonsen ansatz for the D-dimensional Kuramoto model: A constructive approach

This article suggests that the "elements of the tort" approach to directors' liability in negligence to third parties should be discontinued on the basis that assumption of responsibility as a threshold test is not an element of the tort of negligence or negligent misstatement and a more constructive approach would be to address the policy issues associated with imposing liability on directors as part of the two-stage duty of care inquiry.

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Nontrivial standing wave state in frequency-weighted Kuramoto model

Frontiers of Physics ◽

10.1007/s11467-017-0672-z ◽

2017 ◽

Vol 12 (3) ◽

Cited By ~ 6

Author(s):

Hong-Jie Bi ◽

Yan Li ◽

Li Zhou ◽

Shu-Guang Guan

Keyword(s):

Standing Wave ◽

Kuramoto Model ◽

Wave State

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Emulating the local Kuramoto model with an injection-locked photonic crystal laser array

Scientific Reports ◽

10.1038/s41598-021-86982-w ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Naotomo Takemura ◽

Kenta Takata ◽

Masato Takiguchi ◽

Masaya Notomi

Keyword(s):

Photonic Crystal ◽

Nearest Neighbor ◽

Multiple Quantum Well ◽

Kuramoto Model ◽

Multiple Quantum ◽

Laser Array ◽

Novel Strategy ◽

A Chain ◽

The One ◽

The Kuramoto Model

AbstractThe Kuramoto model is a mathematical model for describing the collective synchronization phenomena of coupled oscillators. We theoretically demonstrate that an array of coupled photonic crystal lasers emulates the Kuramoto model with non-delayed nearest-neighbor coupling (the local Kuramoto model). Our novel strategy employs indirect coupling between lasers via additional cold cavities. By installing cold cavities between laser cavities, we avoid the strong coupling of lasers and realize ideal mutual injection-locking with effective non-delayed dissipative coupling. First, after discussing the limit cycle interpretation of laser oscillation, we demonstrate the synchronization of two indirectly coupled lasers by numerically simulating coupled-mode equations. Second, by performing a phase reduction analysis, we show that laser dynamics in the proposed device can be mapped to the local Kuramoto model. Finally, we briefly demonstrate that a chain of indirectly coupled photonic crystal lasers actually emulates the one-dimensional local Kuramoto chain. We also argue that our proposed structure, which consists of periodically aligned cold cavities and laser cavities, will best be realized by using state-of-the-art buried multiple quantum well photonic crystals.

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Partially Phase-Locked Solutions to the Kuramoto Model

Journal of Statistical Physics ◽

10.1007/s10955-021-02783-5 ◽

2021 ◽

Vol 183 (3) ◽

Author(s):

Jared C. Bronski ◽

Lan Wang

Keyword(s):

Kuramoto Model ◽

The Kuramoto Model

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A constructive approach to accessible group classes

Annali di Matematica Pura ed Applicata (1923 -) ◽

10.1007/s10231-021-01146-x ◽

2021 ◽

Author(s):

Francesco de Giovanni ◽

Marco Trombetti

Keyword(s):

Constructive Approach ◽

Class A ◽

Formula Group

AbstractLet $${\mathfrak {X}}$$ X be a group class. A group G is an opponent of $${\mathfrak {X}}$$ X if it is not an $${\mathfrak {X}}$$ X -group, but all its proper subgroups belong to $${\mathfrak {X}}$$ X . Of course, every opponent of $${\mathfrak {X}}$$ X is a cohopfian group and the aim of this paper is to describe the smallest group class containing $${\mathfrak {X}}$$ X and admitting no such a kind of cohopfian groups.

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Complexity reduction in the 3D Kuramoto model

Chaos Solitons & Fractals ◽

10.1016/j.chaos.2021.111090 ◽

2021 ◽

Vol 149 ◽

pp. 111090

Author(s):

Ana Elisa D. Barioni ◽

Marcus A.M. de Aguiar

Keyword(s):

Complexity Reduction ◽

Kuramoto Model

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Emergent synchronous beating behavior in spontaneous beating cardiomyocyte clusters

Scientific Reports ◽

10.1038/s41598-021-91466-y ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Kazufumi Sakamoto ◽

Yoshitsune Hondo ◽

Naoki Takahashi ◽

Yuhei Tanaka ◽

Rikuto Sekine ◽

...

Keyword(s):

Stem Cell ◽

Embryonic Stem Cell ◽

Human Embryonic Stem Cell ◽

Single Cells ◽

Embryonic Stem ◽

Kuramoto Model ◽

Distribution Analysis ◽

Cell Clusters ◽

Overdrive Suppression ◽

The Kuramoto Model

AbstractWe investigated the dominant rule determining synchronization of beating intervals of cardiomyocytes after the clustering of mouse primary and human embryonic-stem-cell (hES)-derived cardiomyocytes. Cardiomyocyte clusters were formed in concave agarose cultivation chambers and their beating intervals were compared with those of dispersed isolated single cells. Distribution analysis revealed that the clusters’ synchronized interbeat intervals (IBIs) were longer than the majority of those of isolated single cells, which is against the conventional faster firing regulation or “overdrive suppression.” IBI distribution of the isolated individual cardiomyocytes acquired from the beating clusters also confirmed that the clusters’ IBI was longer than those of the majority of constituent cardiomyocytes. In the complementary experiment in which cell clusters were connected together and then separated again, two cardiomyocyte clusters having different IBIs were attached and synchronized to the longer IBIs than those of the two clusters’ original IBIs, and recovered to shorter IBIs after their separation. This is not only against overdrive suppression but also mathematical synchronization models, such as the Kuramoto model, in which synchronized beating becomes intermediate between the two clusters’ IBIs. These results suggest that emergent slower synchronous beating occurred in homogeneous cardiomyocyte clusters as a community effect of spontaneously beating cells.

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