Nonadiabatic geometric quantum computation protected by dynamical decoupling via the XXZ Hamiltonian |
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Authors: | X. Wu P. Z. Zhao |
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Affiliation: | Department of Physics, Shandong University, Jinan 250100, China |
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Abstract: | Nonadiabatic geometric quantum computation protected by dynamical decoupling combines the robustness of nonadiabatic geometric gates and the decoherence-resilience feature of dynamical decoupling. Solid-state systems provide an appealing candidate for the realization of nonadiabatic geometric quantum computation protected dynamical decoupling since the solid-state qubits are easily embedded in electronic circuits and scaled up to large registers. In this paper, we put forward a scheme of nonadiabatic geometric quantum computation protected by dynamical decoupling via the XXZ Hamiltonian, which not only combines the merits of nonadiabatic geometric gates and dynamical decoupling but also can be realized in a number of solid-state systems, such as superconducting circuits and quantum dots. |
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Keywords: | nonadiabatic geometric quantum computation dynamical decoupling XXZ Hamiltonian |
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