Abstract
A double barrier Single Electron Transistor is realized in two dimensions by confining the 2-D electron gas of a GaAs/GaAlAs heterojunction to a small island by means of Schottky gates. Two gates provide adjustable tunnel barriers and a central gate controls the electron number in the island. The island has small single-particle energy level spacing and forms a metallic island. Periodic conductance oscillations characteristic of Coulomb blockade are observed when the central gate voltage is varied. The ability to vary the tunnel conductance allows us to study the basic physics of the Coulomb blockade: our results show that the quantum charge fluctuation mechanism which limits the tunneling blockade at low temperature is of second order in tunnel barrier transparencies in agreement with the charge Macroscopic Quantum Tunneling (q-MQT) or co-tunneling model.
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Glattli, D.C., Pasquier, C., Meirav, U. et al. Co-tunneling of the charge through a 2-D electron island. Z. Physik B - Condensed Matter 85, 375–380 (1991). https://doi.org/10.1007/BF01307633
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DOI: https://doi.org/10.1007/BF01307633