English

A colloidal time crystal and its tempomechanical properties

Soft Condensed Matter 2021-12-10 v1 Statistical Mechanics Adaptation and Self-Organizing Systems Fluid Dynamics Quantum Physics

Abstract

The spontaneous breaking of symmetries is a widespread phenomenon in physics. When time translational symmetry is spontaneously broken, an exotic nonequilibrium state of matter in which the same structures repeat themselves in time can arise. This state, known as "time crystal", attracted a lot of interest recently. Another relatively new research area deals with active matter. Materials consisting of colloidal particles that consume energy from their environment and propel themselves forward can exhibit intriguing properties like superfluidity that were previously known only from quantum-mechanical systems. Here, we bring together these - at first glance completely different - research fields by showing that self-propelled colloidal particles can form classical continuous time crystals. We present a state diagram showing where this new state of matter arises. Furthermore, we investigate its tempomechanical properties and present a temporal stress-strain diagram showing parallels to conventional materials science but also remarkable new properties that do not have a counterpart in common materials.

Keywords

Cite

@article{arxiv.2112.04498,
  title  = {A colloidal time crystal and its tempomechanical properties},
  author = {Marina Evers and Raphael Wittkowski},
  journal= {arXiv preprint arXiv:2112.04498},
  year   = {2021}
}

Comments

16 pages, 12 figures, 2 tables

R2 v1 2026-06-24T08:09:36.553Z