We use the circularly polarized resonant Rayleigh scattering (RRS) to study the quantum Hall ferromagnet at ? = 1. At this filling factor, we observe a right-handed copolarized RRS which probes the Skyrmion spin texture of the electrons in the photoexcited ground states. The resonant scattering is not present in the left-handed copolarization, and this can be related to the correlation between Skymionic effects, screening, and spin wave excitations. These results evidence that RRS is a valid method for the study of the spin texture of the quantum Hall states.
Circularly polarized resonant Rayleigh scattering and skyrmions in the nu =1 quantum Hall ferromagnet
G Biasiol;L Sorba
2011
Abstract
We use the circularly polarized resonant Rayleigh scattering (RRS) to study the quantum Hall ferromagnet at ? = 1. At this filling factor, we observe a right-handed copolarized RRS which probes the Skyrmion spin texture of the electrons in the photoexcited ground states. The resonant scattering is not present in the left-handed copolarization, and this can be related to the correlation between Skymionic effects, screening, and spin wave excitations. These results evidence that RRS is a valid method for the study of the spin texture of the quantum Hall states.File in questo prodotto:
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