Universal statistics of vortex lines.

Phys Rev E Stat Nonlin Soft Matter Phys 85:3-1 (2012) 031141

Authors:

A Nahum, JT Chalker

Abstract:

We study the vortex lines that are a feature of many random or disordered three-dimensional systems. These show universal statistical properties on long length scales, and geometrical phase transitions analogous to percolation transitions but in distinct universality classes. The field theories for these problems have not previously been identified, so that while many numerical studies have been performed, a framework for interpreting the results has been lacking. We provide such a framework with mappings to simple supersymmetric models. Our main focus is on vortices in short-range-correlated complex fields, which show a geometrical phase transition that we argue is described by the CP^{k|k} model (essentially the CP^{n-1} model in the replica limit n→1). This can be seen by mapping a lattice version of the problem to a lattice gauge theory. A related field theory with a noncompact gauge field, the 'NCCP^{k|k} model', is a supersymmetric extension of the standard dual theory for the XY transition, and we show that XY duality gives another way to understand the appearance of field theories of this type. The supersymmetric descriptions yield results relevant, for example, to vortices in the XY model and in superfluids, to optical vortices, and to certain models of cosmic strings. A distinct but related field theory, the RP^{2l|2l} model (or the RP^{n-1} model in the limit n→1) describes the unoriented vortices that occur, for instance, in nematic liquid crystals. Finally, we show that in two dimensions, a lattice gauge theory analogous to that discussed in three dimensions gives a simple way to see the known relation between two-dimensional percolation and the CP^{k|k} σ model with a θ term.

Universal statistics of vortex lines

Physical Review E American Physical Society (APS) 85:3 (2012) 031141

Authors:

Adam Nahum, JT Chalker

Spinful Composite Fermions in a Negative Effective Field

(2012)

Authors:

Simon C Davenport, Steven H Simon

Dipolar bogolons: from superfluids to Pfaffians

(2012)

Authors:

SA Parameswaran, SA Kivelson, R Shankar, SL Sondhi, BZ Spivak

Size dependence of the propulsion velocity for catalytic Janus-sphere swimmers

Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 85:2 (2012)

Authors:

S Ebbens, MH Tu, JR Howse, R Golestanian

Abstract:

The propulsion velocity of active colloids that asymmetrically catalyze a chemical reaction is probed experimentally as a function of their sizes. It is found that over the experimentally accessible range, the velocity decays as a function of size, with a rate that is compatible with an inverse size dependence. A diffusion-reaction model for the concentrations of the fuel and waste molecules that takes into account a two-step process for the asymmetric catalytic activity on the surface of the colloid is shown to predict a similar behavior for colloids at the large size limit, with a saturation for smaller sizes. © 2012 American Physical Society.