Fast hybrid silicon double-quantum-dot qubit

Zhan Shi; C. B. Simmons; J. R. Prance; John King Gamble; Teck Seng Koh; Yun Pil Shim; Xuedong Hu; D. E. Savage; M. G. Lagally; M. A. Eriksson; Mark Friesen; S. N. Coppersmith

doi:10.1103/PhysRevLett.108.140503

Fast hybrid silicon double-quantum-dot qubit

Zhan Shi
, C. B. Simmons
, J. R. Prance
, John King Gamble
, Teck Seng Koh
, Yun Pil Shim
, Xuedong Hu
, D. E. Savage
, M. G. Lagally
, M. A. Eriksson
, Mark Friesen
, S. N. Coppersmith

Physics

University of Wisconsin-Madison

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

205 Scopus citations

Abstract

We propose a quantum dot qubit architecture that has an attractive combination of speed and fabrication simplicity. It consists of a double quantum dot with one electron in one dot and two electrons in the other. The qubit itself is a set of two states with total spin quantum numbers S2=3/4 (S=1/2) and S _z=-1/2, with the two different states being singlet and triplet in the doubly occupied dot. Gate operations can be implemented electrically and the qubit is highly tunable, enabling fast implementation of one- and two-qubit gates in a simpler geometry and with fewer operations than in other proposed quantum dot qubit architectures with fast operations. Moreover, the system has potentially long decoherence times. These are all extremely attractive properties for use in quantum information processing devices.

Original language	English
Article number	140503
Journal	Physical Review Letters
Volume	108
Issue number	14
DOIs	https://doi.org/10.1103/PhysRevLett.108.140503
State	Published - Apr 4 2012

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10.1103/PhysRevLett.108.140503

Cite this

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abstract = "We propose a quantum dot qubit architecture that has an attractive combination of speed and fabrication simplicity. It consists of a double quantum dot with one electron in one dot and two electrons in the other. The qubit itself is a set of two states with total spin quantum numbers S2=3/4 (S=1/2) and S z=-1/2, with the two different states being singlet and triplet in the doubly occupied dot. Gate operations can be implemented electrically and the qubit is highly tunable, enabling fast implementation of one- and two-qubit gates in a simpler geometry and with fewer operations than in other proposed quantum dot qubit architectures with fast operations. Moreover, the system has potentially long decoherence times. These are all extremely attractive properties for use in quantum information processing devices.",

author = "Zhan Shi and Simmons, \{C. B.\} and Prance, \{J. R.\} and Gamble, \{John King\} and Koh, \{Teck Seng\} and Shim, \{Yun Pil\} and Xuedong Hu and Savage, \{D. E.\} and Lagally, \{M. G.\} and Eriksson, \{M. A.\} and Mark Friesen and Coppersmith, \{S. N.\}",

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AU - Shi, Zhan

AU - Simmons, C. B.

AU - Prance, J. R.

AU - Gamble, John King

AU - Koh, Teck Seng

AU - Shim, Yun Pil

AU - Hu, Xuedong

AU - Savage, D. E.

AU - Lagally, M. G.

AU - Eriksson, M. A.

AU - Friesen, Mark

AU - Coppersmith, S. N.

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Fast hybrid silicon double-quantum-dot qubit

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