Measurement of valley splitting in high-symmetry Si/SiGe quantum dots

Adele E. Schmitz; Andrew T. Hunter; Andrey A. Kiselev; Edward T. Croke; Fiona C. Ku; Ivan Alvarado-Rodriguez; Ivan Milosavljevic; Kevin S. Holabird; Leslie D. Warren; Mark F. Gyure

arxiv: 1012.1363 · v2 · pith:UKCPBJRLnew · submitted 2010-12-06 · ❄️ cond-mat.mes-hall

Measurement of valley splitting in high-symmetry Si/SiGe quantum dots

Matthew G. Borselli , Richard S. Ross , Andrey A. Kiselev , Edward T. Croke , Kevin S. Holabird , Peter W. Deelman , Leslie D. Warren , Ivan Alvarado-Rodriguez

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Ivan Milosavljevic Fiona C. Ku Wah S. Wong Adele E. Schmitz Marko Sokolich Mark F. Gyure Andrew T. Hunter

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keywords valleydevicesdotsquantumsigeatomicallycontrollabledegeneracy

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We have demonstrated few-electron quantum dots in Si/SiGe and InGaAs, with occupation number controllable from N = 0. These display a high degree of spatial symmetry and identifiable shell structure. Magnetospectroscopy measurements show that two Si-based devices possess a singlet N =2 ground state at low magnetic field and therefore the two-fold valley degeneracy is lifted. The valley splittings in these two devices were 120 and 270 {\mu}eV, suggesting the presence of atomically sharp interfaces in our heterostructures.

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Measurement of valley splitting in high-symmetry Si/SiGe quantum dots

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