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Orbital and valley state spectra of a few-electron silicon quantum dot

Understanding interactions between orbital and valley quantum states in silicon nanodevices is crucial in assessing the prospects of spin-based qubits. We study the energy spectra of a few-electron silicon metal-oxide-semiconductor quantum dot using dynamic charge sensing and pulsed-voltage spectroscopy. The occupancy of the quantum dot is probed down to the single-electron level using a nearby single-electron transistor as a charge sensor. The energy of the first orbital excited state is found to decrease rapidly as the electron occupancy increases from N=1 to 4. By monitoring the sequential spin filling of the dot we extract a valley splitting of ~230 μeV, irrespective of electron number. This indicates that favorable conditions for qubit operation are in place in the few-electron regime.

preprint2012arXivOpen access
C. H. YangW. H. LimN. S. LaiA. RossiA. MorelloA. S. Dzurak
cond-mat.mes-hall
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C. H. YangW. H. LimN. S. LaiA. RossiA. MorelloA. S. Dzurak

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