Monodisperse cluster crystals: classical and quantum dynamics
Abstract
We study the phases and dynamics of a gas of monodisperse particles interacting via soft-core potentials in two spatial dimensions, which is of interest for soft-matter colloidal systems and quantum atomic gases. Using exact theoretical methods, we demonstrate that the equilibrium low-temperature classical phase simultaneously breaks continuous translational symmetry and dynamic space-time homogeneity, whose absence is usually associated with out-of-equilibrium glassy phenomena. This results in an exotic self-assembled cluster crystal with coexisting liquid-like long-time dynamical properties, which corresponds to a classical analog of supersolid behavior. We demonstrate that the effects of quantum fluctuations and bosonic statistics on cluster-glassy crystals are separate and competing: zero-point motion tends to destabilize crystalline order, which can be restored by bosonic statistics.
Keywords
Cite
@article{arxiv.1402.0852,
title = {Monodisperse cluster crystals: classical and quantum dynamics},
author = {Rogelio Diaz-Mendez and Fabio Mezzacapo and Fabio Cinti and Wolfgang Lechner and Guido Pupillo},
journal= {arXiv preprint arXiv:1402.0852},
year = {2015}
}
Comments
8 pages, 7 figures