Z. D. Kvon, Y. Y. Proskuryakov, A. K. Savchenko
Published 2003-01-14Version 1
We report the observation of an anomalous state of a 2D electron gas near a vicinal surface of a silicon MOSFET in high magnetic fields. It is characterised by unusual behaviour of the conductivities $\sigma_{xx}$ and $\sigma_{xy}$, which can be described as a collapse of the Zeeman spin splitting accompanied by a large peak in $\sigma_{xx}$ and an anomalous peak in $ \sigma_{xy}$. It occurs at densities corresponding to the position of the Fermi level above the onset of the superlattice mini-gap inherent to the vicinal system. The range of fields and densities where this effect exists has been determined, and it has been shown that it is suppressed by parallel magnetic fields.
Two-dimensional few electron systems in high magnetic fields: Composite-fermion or rotating-electron-molecule approach?
Trial wave functions with long-range Coulomb correlations for two-dimensional N-electron systems in high magnetic fields
Quantum dots in high magnetic fields: Rotating-Wigner-molecule versus composite-fermion approach
