Topological patterns in active liquid crystals

M Cristina Marcetti

Topological patterns in active liquid crystals

· Invited

Abstract

Active materials are composed of interacting entities that are individually powered and exhibit rich emergent behavior at larges scales. For instance, a dense swarm of bacteria can behave collectively as a living liquid crystal, self-organize in complex regular patterns, exhibit turbulent-like motion, or ‘freeze’ into a solid-like biofilm. In this talk I will discuss theoretical work on active liquid crystals confined to two-dimensional planar and curved interfaces. I will show how the topology of the environment can create new types of collective behaviors in these systems, including complex dynamical patterns, self-sustained oscillations and topologically protected sound waves.

^*This work was supported by the National Science Foundation grant DMR-1609208 and by the Simons Foundation Targeted Grant in the Mathematical Modeling of Living Systems 342354.

March 5, 2018, 4:54 PM – March 5, 2018, 5:30 PM

Presenters

M Cristina Marcetti
- Physics, Syracuse Univ
- Soft & Living Matter Program, Dept of Physics, Syracuse University
- Syracuse University
- Physics, Syracuse University
- Physics, Syracuse U.

Authors

M Cristina Marcetti
- Physics, Syracuse Univ
- Soft & Living Matter Program, Dept of Physics, Syracuse University
- Syracuse University
- Physics, Syracuse University
- Physics, Syracuse U.