Formation of an Edge Striped Phase in Fractional Quantum Hall Systems
Abstract
We have performed an exact diagonalization study of up to N=12 interacting electrons on a disk at filling =1/3 for both Coulomb and V1 short-range interaction for which Laughlin wave function is the exact solution. For Coulomb interaction and N≥ 10 we find persistent radial oscillations in electron density, which are not captured by the Laughlin wave function. Our results srongly suggest formation of a chiral edge striped phase in quantum Hall systems. The amplitude of the charge density oscillations decays slowly, perhaps as a square root of the distance from the edge; thus the spectrum of edge excitations is likely to be affected.
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