Condensed Matter Theory

Pilot-wave dynamics of two identical, in-phase bouncing droplets

Chaos An Interdisciplinary Journal of Nonlinear Science AIP Publishing 28:9 (2018) 096114

Authors:

Rahil N Valani, Anja C Slim

Floquet quantum criticality

Proceedings of the National Academy of Sciences National Academy of Sciences 115:38 (2018) 9491-9496

Authors:

W Berdanier, M Kolodrubetz, Siddharth Parameswaran, R Vasseur

Abstract:

We study transitions between distinct phases of one-dimensional periodically driven (Floquet) systems. We argue that these are generically controlled by infinite-randomness fixed points of a strong-disorder renormalization group procedure. Working in the fermionic representation of the prototypical Floquet Ising chain, we leverage infinite randomness physics to provide a simple description of Floquet (multi)criticality in terms of a distinct type of domain wall associated with time translational symmetry-breaking and the formation of “Floquet time crystals.” We validate our analysis via numerical simulations of free-fermion models sufficient to capture the critical physics.

Interaction effects and charge quantization in single-particle quantum dot emitters

(2018)

Authors:

Glenn Wagner, Dung X Nguyen, Dmitry L Kovrizhin, Steven H Simon

Active nematics.

Nature communications 9:1 (2018) 3246-3246

Authors:

Amin Doostmohammadi, Jordi Ignés-Mullol, Julia M Yeomans, Francesc Sagués

Abstract:

Active matter extracts energy from its surroundings at the single particle level and transforms it into mechanical work. Examples include cytoskeleton biopolymers and bacterial suspensions. Here, we review experimental, theoretical and numerical studies of active nematics - a type of active system that is characterised by self-driven units with elongated shape. We focus primarily on microtubule-kinesin mixtures and the hydrodynamic theories that describe their properties. An important theme is active turbulence and the associated motile topological defects. We discuss ways in which active turbulence may be controlled, a pre-requisite to harvesting energy from active materials, and we consider the appearance, and possible implications, of active nematics and topological defects to cellular systems and biological processes.

A touch of awe: crafting meaning from the wonder of the cosmos

Annals of the New York Academy of Sciences Wiley 1432:1 (2018) 46-62

Authors:

S Paulson, P Davies, Adriaan Louis, L Walkowicz

Abstract:

From the birth of galaxies to the self-organizing dynamics of our planet to the ongoing expansion of the universe, the more we discover about the evolution of the cosmos, the more acutely we realize the enormity of what remains to be known. Just this year astrophysicists at the University of Nottingham confirmed that there are at least two trillion galaxies in the cosmos, 10 times more than had been previously thought. What guidance or wisdom can the study of cosmology and astrophysics offer us in our search for meaning and purpose? In conversation with Steve Paulson, executive producer and host of To the Best of Our Knowledge, theoretical physicists Paul Davies and Ard Louis, and astrophysicist Lucianne Walkowicz share their perceptions based on years of gazing upward and beyond our own intimate planet.