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Observation of the single-electron regime in a highly tunable silicon quantum dot

We report on low-temperature electronic transport measurements of a silicon metal-oxide-semiconductor quantum dot, with independent gate control of electron densities in the leads and the quantum dot island. This architecture allows the dot energy levels to be probed without affecting the electron density in the leads, and vice versa. Appropriate gate biasing enables the dot occupancy to be reduced to the single-electron level, as evidenced by magnetospectroscopy measurements of the ground state of the first two charge transitions. Independent gate control of the electron reservoirs also enables discrimination between excited states of the dot and density of states modulations in the leads.

preprint2009arXivOpen access
W. H. LimF. A. ZwanenburgH. HueblM. MottonenK. W. ChanA. MorelloA. S. Dzurak
cond-mat.mes-hall
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W. H. LimF. A. ZwanenburgH. HueblM. MottonenK. W. ChanA. MorelloA. S. Dzurak

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