Modified Khaneja-Glaser Decomposition and Realization of Three-Qubit Quantum Gate 被引量：1

Modified Khaneja-Glaser Decomposition and Realization of Three-Qubit Quantum Gate

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摘要 Optimal implementation of quantum gates is crucial for realization of quantum computation. We slightly modify the Khaneja-Glaser decomposition （KGD） for n-qubits and give a new Cartan subalgbra in the second step of the decomposition. Based on this modified KGD, we investigate the realization of three-qubit logic gate and obtain the result that a general three-qubit quantum logic gate can be implemented using at most 73 one-qubit gates rotations with respect to the y and z axes and 26 CNOT gates. Optimal implementation of quantum gates is crucial for realization of quantum computation. We slightly modify the Khaneja-Glaser decomposition （KGD） for n-qubits and give a new Cartan subalgbra in the second step of the decomposition. Based on this modified KGD, we investigate the realization of three-qubit logic gate and obtain the result that a general three-qubit quantum logic gate can be implemented using at most 73 one-qubit gates rotations with respect to the y and z axes and 26 CNOT gates.

作者魏海瑞狄尧民张洁

机构地区 School of Physics and Electronic Engineering

出处《Chinese Physics Letters》 SCIE CAS CSCD 2008年第9期3107-3110,共4页 中国物理快报（英文版）

基金 Supported by the National Natural Science Foundation of China under Grant No 60433050, and the Graduate Science Foundation of Xuzhou Normal University （06XLA05）.

分类号 O413 [理学—理论物理]

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参考文献15

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Chinese Physics Letters

2008年第9期

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Modified Khaneja-Glaser Decomposition and Realization of Three-Qubit Quantum Gate 被引量：1

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