Classical many-body time crystals
Abstract
Discrete time crystals are a many-body state of matter where the extensive system's dynamics are slower than the forces acting on it. Nowadays, there is a growing debate regarding the specific properties required to demonstrate such a many-body state, alongside several experimental realizations. In this work, we provide a simple and pedagogical framework by which to obtain many-body time crystals using parametrically coupled resonators. In our analysis, we use classical period-doubling bifurcation theory and present a clear distinction between single-mode time-translation symmetry breaking and a situation where an extensive number of degrees of freedom undergo the transition. We experimentally demonstrate this paradigm using coupled mechanical oscillators, thus providing a clear route for time crystals realizations in real materials.
Cite
@article{arxiv.1903.02311,
title = {Classical many-body time crystals},
author = {Toni L. Heugel and Matthias Oscity and Alexander Eichler and Oded Zilberberg and R. Chitra},
journal= {arXiv preprint arXiv:1903.02311},
year = {2019}
}
Comments
23 pages, 5 figures, comments are welcome