Spin-based quantum dot quantum computing in silicon

Mark A. Eriksson; Mark Friesen; Susan N. Coppersmith; Robert Joynt; Levente J. Klein; Keith Slinker; Charles Tahan; P. M. Mooney; J. O. Chu; S. J. Koester

Book Chapter

Spin-based quantum dot quantum computing in silicon

Eriksson M
Friesen M
Coppersmith S
et al.

Springer US, (2005), 133-146

DOI: 10.1007/0-387-27732-3_10

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Abstract

The spins of localized electrons in silicon are strong candidates for quantum information processing because of their extremely long coherence times and the integrability of Si within the present microelectronics infrastructure. This paper reviews a strategy for fabricating single electron spin qubits in gated quantum dots in Si/SiGe heterostructures. We discuss the pros and cons of using silicon, present recent advances, and outline challenges. © 2005 Springer Science+Business Media, Inc.

Author supplied keywords

Quantum computation
quantum dot
quantum well
silicon
silicon-germanium
spin

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APA

Eriksson, M. A., Friesen, M., Coppersmith, S. N., Joynt, R., Klein, L. J., Slinker, K., … Koester, S. J. (2005). Spin-based quantum dot quantum computing in silicon. In Experimental Aspects of Quantum Computing (pp. 133–146). Springer US. https://doi.org/10.1007/0-387-27732-3_10

Spin-based quantum dot quantum computing in silicon

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