Abstract
We performed insitu magnetotransport measurements on ultrathin Bi(111) films [4-30 bilayers (BLs), 16-120Å thick] to elucidate the role of bulk or surface states in the transport phenomena. We found that the temperature dependence of the film conductivity shows no thickness dependence for the 6-16BL films and is affected by the electron-electron scattering, suggesting surface-state dominant contribution. In contrast, the weak antilocalization effect observed by applying a magnetic field shows clear thickness dependence, indicating bulk transport. This apparent inconsistency is explained by a coherent bulk-surface coupling that produces a single channel transport. For the films thicker than 20BLs, the behavior changes drastically which can likely be interpreted as a bulk dominant conduction.
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