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Experimental time-optimal universal control of spin qubits in solids

Quantum control of systems plays important roles in modern science and technology. The ultimate goal of quantum control is to achieve high fidelity universal control in the time-optimal way. Although high fidelity universal control has been reported in various quantum systems, experimental implementation of time-optimal universal control remains elusive. Here we report the experimental realization of time-optimal universal control of spin qubits in diamond. By generalizing a recent method for solving quantum brachistochrone equations [X. Wang, et al., Phys. Rev. Lett. 114, 170501 (2015)], we obtained accurate minimum time protocols for multiple qubits with fixed qubits' interactions and constrained control field. Single- and two-qubit time-optimal gates are experimentally implemented with fidelities of 99% obtained via quantum process tomography. Our work provides a time-optimal route to achieve accurate quantum control, and unlocks new capabilities for emerging field of time-optimal control in general quantum systems.

preprint2016arXivOpen access
Jianpei GengYang WuXiaoting WangKebiao XuFazhan ShiYijin XieXing RongJiangfeng Du
quant-ph
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Jianpei GengYang WuXiaoting WangKebiao XuFazhan ShiYijin XieXing RongJiangfeng Du

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