Skyrmions without Sigma Models in Quantum Hall Ferromagnets

Abstract

We report on a microscopic theory of the Skyrmion states which occur in the quantum Hall regime. The theory is based on the identification of Skyrmion states in this system with zero-energy eigenstates of a hard-core model Hamiltonian. We find that for Nφ orbital states in a Landau level, a set of Skyrmions states with orbital degeneracy Nφ-K and spin quantum number S = N/2 -K exists for each nonnegative integer K. The energetic ordering of states with different K depends on the interaction potential.

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