Description |
Two major outstanding questions in theoretical condensed matter physics are how to describe (a) driven or active systems far from equilibrium and (b) disordered systems characterized by a very slow relaxation (e.g. glassy dynamics). In this presentation I will attempt to provide a unified theoretical and computational description of an active glass, a system that exists at the intersection of these two challenging domains. Examples include Epithelial tissue, the cellular cytoplasm, a dense assembly of self- propelled colloids, to name a few. I would like to discuss the dynamics and phase diagram of a canonical model of active glassy matter and show how the rheological perturbation in such a system can lead to a novel type of shear
induced ordering. I will also provide an outlook on pertinent questions and discuss briefly about the possible future directions.
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