Modified Khaneja--Glaser Decomposition and Realization of Three-Qubit Quantum Gate
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Abstract
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.
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WEI Hai-Rui, DI Yao-Min, ZHANG-Jie. Modified Khaneja--Glaser Decomposition and Realization of Three-Qubit Quantum Gate[J]. Chin. Phys. Lett., 2008, 25(9): 3107-3110.
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WEI Hai-Rui, DI Yao-Min, ZHANG-Jie. Modified Khaneja--Glaser Decomposition and Realization of Three-Qubit Quantum Gate[J]. Chin. Phys. Lett., 2008, 25(9): 3107-3110.
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WEI Hai-Rui, DI Yao-Min, ZHANG-Jie. Modified Khaneja--Glaser Decomposition and Realization of Three-Qubit Quantum Gate[J]. Chin. Phys. Lett., 2008, 25(9): 3107-3110.
|
WEI Hai-Rui, DI Yao-Min, ZHANG-Jie. Modified Khaneja--Glaser Decomposition and Realization of Three-Qubit Quantum Gate[J]. Chin. Phys. Lett., 2008, 25(9): 3107-3110.
|
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