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Spin filling of valley-orbit states in a silicon quantum dot

arXiv:1103.2895 · doi:10.1088/0957-4484/22/33/335704

Abstract

We report the demonstration of a low-disorder silicon metal-oxide-semiconductor (Si MOS) quantum dot containing a tunable number of electrons from zero to N=27. The observed evolution of addition energies with parallel magnetic field reveals the spin filling of electrons into valley-orbit states. We find a splitting of 0.10 meV between the ground and first excited states, consistent with theory and placing a lower bound on the valley splitting. Our results provide optimism for the realization in the near future of spin qubits based on silicon quantum dots.

6 pages, 4 figures, to appear in Nanotechnology