Shape Deformation driven Structural Transitions in Quantum Hall Skyrmions
arXiv:cond-mat/9702193 · doi:10.1103/PhysRevLett.79.3998
Abstract
The Quantum Hall ground state away from $ν= 1$ can be described by a collection of interacting skyrmions. We show within the context of a nonlinear sigma model, that the classical ground state away from $ν= 1$ is a skyrmion crystal with a generalized Néel order. We show that as a function of filling $ν$, the skyrmion crystal undergoes a triangle to square to triangle transition at zero temperature. We argue that this structural transition, driven by a change in the shape of the individual skyrmions, is stable to thermal and quantum fluctuations and may be probed experimentally.
4 pages (REVTEX) and 4 .eps figures