Eugene Demler, Eugene H. Kim, S. Das Sarma
Published 1999-07-07Version 1
Based on the construction of generalized Halperin wave functions, we predict the possible existence of a large class of broken spin symmetry states in bilayer quantum Hall structures, generalizing the recently suggested canted antiferromgnetic phase to many fractional fillings. We develop the appropriate Chern-Simons theory, and establish explicitly that the low-lying neutral excitation is a Goldstone mode and that the charged excitations are bimerons with continuously tunable (through the canted antiferromagnetic order parameter) electric charge on the individual merons.
Tunneling between bilayer quantum Hall structures in a strong magnetic field
Interplay between sublattice and spin symmetry breaking in graphene
Quantum Coherence and W_infty*SU(2) Algebra in Bilayer Quantum Hall Systems
