Condensed Matter Theory

Permeative flows in cholesteric liquid crystals.

Phys Rev Lett 92:18 (2004) 188301

Authors:

D Marenduzzo, E Orlandini, JM Yeomans

Abstract:

We use lattice Boltzmann simulations to solve the Beris-Edwards equations of motion for a cholesteric liquid crystal subjected to Poiseuille flow along the direction of the helical axis (permeative flow). The results allow us to clarify and extend the approximate analytic treatments currently available. We find that if the cholesteric helix is pinned at the boundaries there is an enormous viscosity increase. If, instead, the helix is free the velocity profile is flattened, but the viscosity is essentially unchanged. We highlight the importance of secondary flows, and, for higher flow velocities, we identify a flow-induced double twist structure in the director field--reminiscent of the texture characteristic of blue phases.

Non-local space-time supersymmetry on the lattice

(2004)

Authors:

Xiao Yang, Paul Fendley

Resonant inelastic X-ray scattering of the holon-antiholon continuum in SrCuO2.

Phys Rev Lett 92:13 (2004) 137402

Authors:

Young-June Kim, JP Hill, H Benthien, FHL Essler, E Jeckelmann, HS Choi, TW Noh, N Motoyama, KM Kojima, S Uchida, D Casa, T Gog

Abstract:

We report a resonant inelastic x-ray scattering study of charge excitations in the quasi-one-dimensional Mott insulator SrCuO2. We observe a continuum of low-energy excitations, the onset of which exhibits a small dispersion of approximately 0.4 eV. Within this continuum, a highly dispersive feature with a large sinusoidal dispersion (approximately 1.1 eV) is observed. We have also measured the optical conductivity, and studied the dynamic response of the extended Hubbard model with realistic parameters, using a dynamical density-matrix renormalization group method. In contrast to earlier work, we do not find a long-lived exciton, but rather these results suggest that the excitation spectrum comprises a holon-antiholon continuum together with a broad resonance.

Disordered quantum Hall ferromagnets and cooperative transport anisotropy

PHYSICA E 22:1-3 (2004) 82-85

Authors:

JT Chalker, DG Polyakov, F Evers, AD Mirlin, P Wolfle

Abstract:

We discuss the behaviour of a quantum Hall system when two Landau levels with opposite spin and combined filling factor near unity are brought into energetic coincidence using an in-plane component of magnetic field. We focus on the interpretation of recent experiments under these conditions (Phys. Rev. Lett. 86 (2001) 866; Phys. Rev. B 64 (2001) 121305), in which a large resistance anisotropy develops at low temperatures. Modelling the systems involved as Ising quantum Hall ferromagnets, we suggest that this transport anisotropy reflects domain formation induced by a random field arising from isotropic sample surface roughness. (C) 2003 Elsevier B.V. All rights reserved.

Mesoscopic modelling of droplets on topologically patterned substrates

LECT NOTES COMPUT SC 3039 (2004) 556-563

Authors:

A Dupuis, JM Yeomans

Abstract:

We present a lattice Boltzmann model to describe the spreading of droplets on topologically patterned substrates. We apply it to model superhydrophobic behaviour on surfaces covered by an array of micron-scale posts. We find that the patterning results in a substantial increase in contact angle, from 110degrees to 156degrees.