Tunneling Between Two-Dimensional Electron Gases in a Strong Magnetic Field

Abstract

We have measured the tunneling between two two-dimensional electron gases at high magnetic fields B, when the carrier densities of the two electron layers are matched. For filling factors <1, there is a gap in the current-voltage characteristics centered about V=0, followed by a tunneling peak at 6~mV. Both features have been observed before and have been attributed to electron-electron interactions within a layer. We have measured high field tunneling peak positions and fitted gap parameters that are proportional to B, and independent of the carrier densities of the two layers. This suggests a different origin for the gap to that proposed by current theories, which predict a B dependence.

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