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Paper detail

Single-electron shuttle based on a silicon quantum dot

We report on single-electron shuttling experiments with a silicon metal-oxide-semiconductor quantum dot at 300 mK. Our system consists of an accumulated electron layer at the Si/SiO_2 interface below an aluminum top gate with two additional barrier gates used to deplete the electron gas locally and to define a quantum dot. Directional single-electron shuttling from the source and to the drain lead is achieved by applying a dc source-drain bias while driving the barrier gates with an ac voltage of frequency f_p. Current plateaus at integer levels of ef_p are observed up to f_p = 240 MHz operation frequencies. The observed results are explained by a sequential tunneling model which suggests that the electron gas may be heated substantially by the ac driving voltage.

preprint2011arXivOpen access
K. W. ChanM. MottonenA. KemppinenN. S. LaiK. Y. TanW. H. LimA. S. Dzurak
cond-mat.mtrl-sciquant-ph
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K. W. ChanM. MottonenA. KemppinenN. S. LaiK. Y. TanW. H. LimA. S. Dzurak

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