Efficient quantum circuits for one-way quantum computing

Tetsufumi Tanamoto; Yu Xi Liu; Xuedong Hu; Franco Nori

doi:10.1103/PhysRevLett.102.100501

Efficient quantum circuits for one-way quantum computing

Tetsufumi Tanamoto
, Yu Xi Liu
, Xuedong Hu
, Franco Nori

Physics

Toshiba Corporation
RIKEN
Japan Science and Technology Agency
University of Michigan, Ann Arbor

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

67 Scopus citations

Abstract

While Ising-type interactions are ideal for implementing controlled phase flip gates in one-way quantum computing, natural interactions between solid-state qubits are most often described by either the XY or the Heisenberg models. We show an efficient way of generating cluster states directly using either the imaginary SWAP (iSWAP) gate for the XY model, or the SWAP gate for the Heisenberg model. Our approach thus makes one-way quantum computing more feasible for solid-state devices.

Original language	English
Article number	100501
Journal	Physical Review Letters
Volume	102
Issue number	10
DOIs	https://doi.org/10.1103/PhysRevLett.102.100501
State	Published - Mar 9 2009

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10.1103/PhysRevLett.102.100501

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abstract = "While Ising-type interactions are ideal for implementing controlled phase flip gates in one-way quantum computing, natural interactions between solid-state qubits are most often described by either the XY or the Heisenberg models. We show an efficient way of generating cluster states directly using either the imaginary SWAP (iSWAP) gate for the XY model, or the SWAP gate for the Heisenberg model. Our approach thus makes one-way quantum computing more feasible for solid-state devices.",

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AB - While Ising-type interactions are ideal for implementing controlled phase flip gates in one-way quantum computing, natural interactions between solid-state qubits are most often described by either the XY or the Heisenberg models. We show an efficient way of generating cluster states directly using either the imaginary SWAP (iSWAP) gate for the XY model, or the SWAP gate for the Heisenberg model. Our approach thus makes one-way quantum computing more feasible for solid-state devices.

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Efficient quantum circuits for one-way quantum computing

Abstract

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