Tunable Quasi-Two-Dimensional Electron Gases in Oxide Heterostructures

Stefan Thiel(Pennsylvania State University), G. Hammerl(Pennsylvania State University), A. Schmehl(Pennsylvania State University), C. Schneider(Pennsylvania State University), J. Mannhart(Pennsylvania State University)
Science
August 25, 2006
10.1126/science.1131091
Cited by 1,541Open Access
Full Text

Abstract

We report on a large electric-field response of quasi-two-dimensional electron gases generated at interfaces in epitaxial heterostructures grown from insulating oxides. These device structures are characterized by doping layers that are spatially separated from high-mobility quasi-two-dimensional electron gases and therefore present an oxide analog to semiconducting high-electron mobility transistors. By applying a gate voltage, the conductivity of the electron gases can be modulated through a quantum phase transition from an insulating to a metallic state.

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