Two-dimensional open-orbit edge states: A new type of quantum oscillation
Abstract
Although Landau quantization is absent in the interior of open-orbit metals, electron orbits near sample edges require quantized areas. The edge orbits have very small effective masses and hence can produce anomalously large oscillations in magnetization and matnetoresistance. The quantized edge states are largely independent of the magnetic-field-induced spin-density-wave transitions which occur in two-dimensional open-orbit metals. We propose that these edge states are responsible for the anomalous Schubnikov-de Haas and de Haas-van Alphen oscillations observed in the organic tetramethyltetraselenafulvalene salts conductors (TMTSF)2X.
- Publication:
-
Physical Review Letters
- Pub Date:
- August 1987
- DOI:
- Bibcode:
- 1987PhRvL..59..582A
- Keywords:
-
- Electron Orbitals;
- Electron Oscillations;
- Magnetic Fields;
- Magnetization;
- Magnetoresistivity;
- Electron Gas;
- Electron Trajectories;
- Energy Spectra;
- Fermi Surfaces;
- Solid-State Physics;
- 72.15.Gd;
- 71.30.+h;
- 73.20.At;
- Galvanomagnetic and other magnetotransport effects;
- Metal-insulator transitions and other electronic transitions;
- Surface states band structure electron density of states