Overlapping-gate architecture for silicon Hall bar MOSFET devices in the low electron density regime
arXiv:1009.3109 · doi:10.1063/1.3501136
Abstract
We report the fabrication and study of Hall bar MOSFET devices in which an overlapping-gate architecture allows four-terminal measurements of low-density 2D electron systems, while maintaining a high density at the ohmic contacts. Comparison with devices made using a standard single gate show that measurements can be performed at much lower densities and higher channel resistances, despite a reduced peak mobility. We also observe a voltage threshold shift which we attribute to negative oxide charge, injected during electron-beam lithography processing.
4 pages, 4 figures, submitted for Applied Physics Letters