Topological waves in active fluids |
| TYPE | Theor./Math. Physics Seminar |
| Speaker: | Prof. Anton Souslov |
| Affiliation: | University of Bath |
| Organizer: | Ari Turner |
| Date: | 14.01.2020 |
| Time: | 14:30 |
| Location: | Lidow Nathan Rosen (300) |
| Abstract: | Active fluids are composed of self-driven microbots that endow the liquid with a unique set of mechanical characteristics. I will present two designs for acoustic metamaterials exhibiting topological states: one using periodic confinement of an active liquid and another using a bulk fluid without periodic order. In a periodic lattice, geometry of confinement controls the structure of topological waves. Without periodic order, topological edge waves can arise in a rotating fluid as a result of the Coriolis force that breaks Galilean invariance and opens a gap at low frequency. I will explore how the number and spatial profile of topological edge states depends on an anomalous response coefficient called odd (or Hall) viscosity. As the sign of odd viscosity changes, a topological phase transition occurs without closing the bulk band gap.
References:
[1] A. Souslov, K. Dasbiswas, M. Fruchart, S. Vaikuntanathan, and V. Vitelli. Topological Waves in Fluids with Odd Viscosity. Phys. Rev. Lett. 122, 128001 (2019). [2] A. Souslov, B. C. van Zuiden, D. Bartolo, V. Vitelli. Topological sound in active-liquid metamaterials. Nature Physics 13, 1091 (2017) |