Ratcheting and tumbling motion of Vibrots

Scholz C, Dsilva S, Pöschel T (2016)

Publication Language: English

Publication Type: Journal article, Original article

Publication year: 2016

Journal

New Journal of Physics Institute of Physics: Open Access Journals / Institute of Physics (IoP) and Deutsche Physikalische Gesellschaft

Book Volume: 18

Article Number: 123001

DOI: 10.1088/1367-2630/18/12/123001

Abstract

Systems of granular rotors (Vibrots), that is, small devices that convert linear
vibrational motion into rotation by frictional impact, are of scientific interest
since they could reveal various types of collective behavior. Looking at an
isolated Vibrot, we note at least two dierent dynamical modes, depending on the
parameters of the vibrational driving. By means of Finite Element simulations,
we reveal the driving mechanism for both cases which may be correspondingly
identified as ratcheting and tumbling. The transition between both modes
resembles period doubling in certain bouncing ball problems leading eventually
to chaotic motion in such systems.

Authors with CRIS profile

Christian Scholz Lehrstuhl für Multiscale Simulation of Particulate Systems Sean Dsilva Lehrstuhl für Multiscale Simulation of Particulate Systems Thorsten Pöschel Lehrstuhl für Multiscale Simulation of Particulate Systems

Additional Organisation(s)

Exzellenz-Cluster Engineering of Advanced Materials

How to cite

APA:

Scholz, C., Dsilva, S., & Pöschel, T. (2016). Ratcheting and tumbling motion of Vibrots. New Journal of Physics, 18. https://dx.doi.org/10.1088/1367-2630/18/12/123001

MLA:

Scholz, Christian, Sean Dsilva, and Thorsten Pöschel. "Ratcheting and tumbling motion of Vibrots." New Journal of Physics 18 (2016).

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