Physical mechanisms of interface-mediated intervalley coupling in Si

A. L. Saraiva; M. J. Calderón; Xuedong Hu; S. Das Sarma; Belita Koiller

doi:10.1103/PhysRevB.80.081305

Physical mechanisms of interface-mediated intervalley coupling in Si

A. L. Saraiva
, M. J. Calderón
, Xuedong Hu
, S. Das Sarma
, Belita Koiller

Physics

Universidade Federal do Rio de Janeiro
Instituto de Ciencia de Materiales de Madrid (CSIC)
University of Maryland, College Park

Research output: Contribution to journal › Article › peer-review

91 Scopus citations

Abstract

The conduction band degeneracy in Si is detrimental to quantum computing based on spin qubits, for which a nondegenerate ground orbital state is desirable. This degeneracy is lifted at an interface with an insulator as the spatially abrupt change in the conduction band minimum leads to intervalley scattering. We present a theoretical study of the interface-induced valley splitting in Si that provides simple criteria for optimal fabrication parameters to maximize this splitting. Our work emphasizes the relevance of different interface-related properties to the valley splitting.

Original language	English
Article number	081305
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	80
Issue number	8
DOIs	https://doi.org/10.1103/PhysRevB.80.081305
State	Published - Aug 13 2009

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10.1103/PhysRevB.80.081305

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title = "Physical mechanisms of interface-mediated intervalley coupling in Si",

abstract = "The conduction band degeneracy in Si is detrimental to quantum computing based on spin qubits, for which a nondegenerate ground orbital state is desirable. This degeneracy is lifted at an interface with an insulator as the spatially abrupt change in the conduction band minimum leads to intervalley scattering. We present a theoretical study of the interface-induced valley splitting in Si that provides simple criteria for optimal fabrication parameters to maximize this splitting. Our work emphasizes the relevance of different interface-related properties to the valley splitting.",

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AU - Saraiva, A. L.

AU - Calderón, M. J.

AU - Hu, Xuedong

AU - Das Sarma, S.

AU - Koiller, Belita

PY - 2009/8/13

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N2 - The conduction band degeneracy in Si is detrimental to quantum computing based on spin qubits, for which a nondegenerate ground orbital state is desirable. This degeneracy is lifted at an interface with an insulator as the spatially abrupt change in the conduction band minimum leads to intervalley scattering. We present a theoretical study of the interface-induced valley splitting in Si that provides simple criteria for optimal fabrication parameters to maximize this splitting. Our work emphasizes the relevance of different interface-related properties to the valley splitting.

AB - The conduction band degeneracy in Si is detrimental to quantum computing based on spin qubits, for which a nondegenerate ground orbital state is desirable. This degeneracy is lifted at an interface with an insulator as the spatially abrupt change in the conduction band minimum leads to intervalley scattering. We present a theoretical study of the interface-induced valley splitting in Si that provides simple criteria for optimal fabrication parameters to maximize this splitting. Our work emphasizes the relevance of different interface-related properties to the valley splitting.

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DO - 10.1103/PhysRevB.80.081305

M3 - Article

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JO - Physical Review B - Condensed Matter and Materials Physics

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Physical mechanisms of interface-mediated intervalley coupling in Si

Abstract

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