Universal Quantum Gates Based on Both Geometric and Dynamic Phases in Quantum Dots
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Abstract
A large-scalable quantum computer model, whose qubits are represented by the subspace subtended by the ground state and the single exciton state on semiconductor quantum dots, is proposed. A universal set of quantum gates in this system may be achieved by a mixed approach, composed of dynamic evolution and nonadibatic geometric phase.
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Cite this article:
YANG Kai-Yu, ZHU Shi-Liang, WANG Zi-Dan. Universal Quantum Gates Based on Both Geometric and Dynamic Phases in Quantum Dots[J]. Chin. Phys. Lett., 2003, 20(7): 991-994.
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YANG Kai-Yu, ZHU Shi-Liang, WANG Zi-Dan. Universal Quantum Gates Based on Both Geometric and Dynamic Phases in Quantum Dots[J]. Chin. Phys. Lett., 2003, 20(7): 991-994.
|
YANG Kai-Yu, ZHU Shi-Liang, WANG Zi-Dan. Universal Quantum Gates Based on Both Geometric and Dynamic Phases in Quantum Dots[J]. Chin. Phys. Lett., 2003, 20(7): 991-994.
|
YANG Kai-Yu, ZHU Shi-Liang, WANG Zi-Dan. Universal Quantum Gates Based on Both Geometric and Dynamic Phases in Quantum Dots[J]. Chin. Phys. Lett., 2003, 20(7): 991-994.
|
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