Condensed Matter Theory

Optical conductivity of the half-filled hubbard chain

Phys Rev Lett 85:18 (2000) 3910-3913

Authors:

E Jeckelmann, F Gebhard, FHL Essler

Abstract:

We combine well-controlled analytical and numerical methods to determine the optical conductivity of the one-dimensional Mott-Hubbard insulator at zero temperature. A dynamical density-matrix renormalization group method provides the entire absorption spectrum for all but very small coupling strengths. In this limit we calculate the conductivity analytically using exact field-theoretical methods. Above the Lieb-Wu gap the conductivity exhibits a characteristic square-root increase. For small to moderate interactions, a sharp maximum occurs just above the gap. For larger interactions, another weak feature becomes visible around the middle of the absorption band.

Lattice Boltzmann Simulations of Liquid Crystal Hydrodynamics

(2000)

Authors:

Colin Denniston, Enzo Orlandini, JM Yeomans

Lattice Boltzmann simulations of complex fluids

IMA Journal of Management Mathematics Oxford University Press (OUP) 11:4 (2000) 257-267

Authors:

JM YEOMANS, ALEXANDER J WAGNER

Phase transitions in two-dimensional disordered systems

Physical Review B American Physical Society (APS) 62:14 (2000) 9359-9363

Authors:

Paul Fendley, Robert M Konik

Casimir dispersion forces and orientational pairwise additivity.

Phys Rev E Stat Phys Plasmas Fluids Relat Interdiscip Topics 62:4 Pt B (2000) 5242-5247

Abstract:

A path-integral formulation is used to study the fluctuation-induced interactions between manifolds of arbitrary shape at large separations. It is shown that the form of the interactions crucially depends on the choice of the boundary condition. In particular, whether or not the Casimir interaction is pairwise additive is shown to depend on whether the "metallic" boundary condition corresponds to a "grounded" or an "isolated" manifold.