R. Cote, A. H. MacDonald, Luis Brey, H. A. Fertig, S. M. Girvin, H. T. C. Stoof
Published 1997-02-22Version 1
At Landau level filling factors near nu =1, quantum Hall ferromagnets form a Skyrme crystal state with quasi-long-range translational and non-collinear magnetic order. We develop an effective low energy theory which explains the presence in these systems of magnetic excitations at low energies below the Larmor gap (Delta) and which predicts a dramatic enhancement of the nuclear spin relaxation rate by a factor of 1000. The effective theory predicts a rich set of quantum and classical phase transitions. Based in part on accurate time-dependent Hartree-Fock calculations of the ordered state collective excitation spectrum, we discuss aspects of the T-nu-Delta crystal phase diagram.
Comments: 4 pages REVTEX file and 3 postscript figures
Nonequilibrium phases and phase transitions of the XY-model
Nuclear spin relaxation rate near the disorder-driven quantum critical point in Weyl fermion systems
Tunable interactions and phase transitions in Dirac materials in a magnetic field
