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Paper detail

A Matrix Valued Kuramoto Model

Beginning with the work of Lohe [14,15] there have been a number of papers [3,5,8,9,11] that have generalized the Kuramoto model for phase-locking to a non-commuting situation. Here we propose and analyze another such model. We consider a collection of symmetric matrix-valued variables that evolve in such a way as to try to align their eigenvector frames. The phase-locked state is one where the eigenframes all align, and thus the matrices all commute. We analyze the stability of the phase-locked state and show that it is stable. We also analyze a dynamic analog of the twist states arising in the standard Kuramoto model, and show that these twist states are dynamically unstable.

preprint2019arXivOpen access
Jared C. BronskiThomas E. CartySarah E. Simpson
math.DS
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Jared C. BronskiThomas E. CartySarah E. Simpson

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