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Experimental realization of non-adiabatic universal quantum gates using geometric Landau-Zener-Stuckelberg interferometry.


ABSTRACT: High fidelity universal gates for quantum bits form an essential ingredient of quantum information processing. In particular, geometric gates have attracted attention because they have a higher intrinsic resistance to certain errors. However, their realization remains a challenge because of the need for complicated quantum control on a multi-level structure as well as meeting the adiabatic condition within a short decoherence time. Here, we demonstrate non-adiabatic quantum operations for a two-level system by applying a well-controlled geometric Landau-Zener-Stückelberg interferometry. By characterizing the gate quality, we also investigate the operation in the presence of realistic dephasing. Furthermore, the result provides an essential model suitable for understanding an interplay of geometric phase and Landau-Zener-Stückelberg process which are well explored separately.

SUBMITTER: Wang L 

PROVIDER: S-EPMC4703957 | biostudies-literature | 2016

REPOSITORIES: biostudies-literature

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Experimental realization of non-adiabatic universal quantum gates using geometric Landau-Zener-Stückelberg interferometry.

Wang Li L   Tu Tao T   Gong Bo B   Zhou Cheng C   Guo Guang-Can GC  

Scientific reports 20160107


High fidelity universal gates for quantum bits form an essential ingredient of quantum information processing. In particular, geometric gates have attracted attention because they have a higher intrinsic resistance to certain errors. However, their realization remains a challenge because of the need for complicated quantum control on a multi-level structure as well as meeting the adiabatic condition within a short decoherence time. Here, we demonstrate non-adiabatic quantum operations for a two-  ...[more]

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