Condensed Matter Theory

How SU(2)$_4$ Anyons are Z$_3$ Parafermions

(2017)

Authors:

Richard Fern, Johannes Kombe, Steven H Simon

Spinon confinement in a quasi-one-dimensional anisotropic Heisenberg magnet

PHYSICAL REVIEW B 96:5 (2017) ARTN 054423

Authors:

AK Bera, B Lake, FHL Essler, L Vanderstraeten, C Hubig, U Schollwoeck, ATMN Islam, A Schneidewind, DL Quintero-Castro

Filling-enforced nonsymmorphic Kondo semimetals in two dimensions

Physical Review B 96:8 (2017)

Authors:

JH Pixley, S Lee, B Brandom, SA Parameswaran

Abstract:

© 2017 American Physical Society. We study the competition between Kondo screening and frustrated magnetism on the nonsymmorphic Shastry-Sutherland Kondo lattice at a filling of two conduction electrons per unit cell. This model is known to host a set of gapless partially Kondo screened phases intermediate between the Kondo-destroyed paramagnet and the heavy Fermi liquid. Based on crystal symmetries, we argue that (i) both the paramagnet and the heavy Fermi liquid are semimetals protected by a glide symmetry; and (ii) partial Kondo screening breaks the symmetry, removing this protection and allowing the partially Kondo screened phase to be deformed into a Kondo insulator via a Lifshitz transition. We confirm these results using large-N mean-field theory and then use nonperturbative arguments to derive a generalized Luttinger sum rule constraining the phase structure of two-dimensional nonsymmorphic Kondo lattices beyond the mean-field limit.

Theory of the Josephson Junction Laser

(2017)

Authors:

Steven H Simon, Nigel R Cooper

Electric-field-induced shape transition of nematic tactoids

Physical Review E American Physical Society 96 (2017) 022706

Authors:

Luuk Metselaar, I Dozov, K Antonova, E Belamie, P Davidson, Julia M Yeomans, Amin Doostmohammadi

Abstract:

The occurrence of new textures of liquid crystals is an important factor in tuning their optical and photonics properties. Here, we show, both experimentally and by numerical computation, that under an electric field chitin tactoids (i.e. nematic droplets) can stretch to aspect ratios of more than 15, leading to a transition from a spindle-like to a cigar-like shape. We argue that the large extensions occur because the elastic contribution to the free energy is dominated by the anchoring. We demonstrate that the elongation involves hydrodynamic flow and is reversible, the tactoids return to their original shapes upon removing the field.