Microscopic Theory of Skyrmions in Quantum Hall Ferromagnets
Abstract
We present a microscopic theory of skyrmions in the monolayer quantum Hall ferromagnet. It is a peculiar feature of the system that the number density and the spin density are entangled intrinsically as dictated by the W%∞ algebra. The skyrmion and antiskyrmion states are constructed as W∞ -rotated states of the hole-excited and electron-excited states, respectively. They are spin textures accompanied with density modulation that decreases the Coulomb energy. We calculate their excitation energy as a function of the Zeeman gap and compared the result with experimental data.
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