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Paper detail

Gaussian Memory in Kinematic Matrix Theory for Self-Propellers

We extend the kinematic matrix ("kinematrix") formalism [Phys. Rev. E 89, 062304 (2014)], which via simple matrix algebra accesses ensemble properties of self-propellers influenced by uncorrelated noise, to treat Gaussian correlated noises. This extension brings into reach many real-world biological and biomimetic self-propellers for which inertia is significant. Applying the formalism, we analyze in detail ensemble behaviors of a 2D self-propeller with velocity fluctuations and orientation evolution driven by an Ornstein-Uhlenbeck process. On the basis of exact results, a variety of dynamical regimes determined by the inertial, speed-fluctuation, orientational diffusion, and emergent disorientation time scales are delineated and discussed.

preprint2014arXivOpen access
Amir NourhaniVincent H. CrespiPaul E. Lammert
Biological Physicscond-mat.soft
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Amir NourhaniVincent H. CrespiPaul E. Lammert

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