Emulating Anyonic Fractional Statistical Behavior in a Superconducting Quantum Circuit

Zhong, You-Peng; Xu, D.; Wang, P.; Song, C.; Guo, Q. J.; Liu, W. X.; Xu, Kai; Xia, B. X.; Lu, C.-Y.; Han, Siyuan; Pan, Jian-Wei; Wang, H.

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Issue Date

2016-09-07

Author

Zhong, You-Peng

Xu, D.

Wang, P.

Song, C.

Guo, Q. J.

Liu, W. X.

Xu, Kai

Xia, B. X.

Lu, C.-Y.

Han, Siyuan

Pan, Jian-Wei

Wang, H.

Publisher

American Physical Society

Type

Article

Article Version

Scholarly/refereed, publisher version

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Abstract

Anyons are exotic quasiparticles obeying fractional statistics, whose behavior can be emulated in artificially designed spin systems. Here we present an experimental emulation of creating anyonic excitations in a superconducting circuit that consists of four qubits, achieved by dynamically generating the ground and excited states of the toric code model, i.e., four-qubit Greenberger-Horne-Zeilinger states. The anyonic braiding is implemented via single-qubit rotations: a phase shift of π related to braiding, the hallmark of Abelian 1/2 anyons, has been observed through a Ramsey-type interference measurement.

Citation

Zhong, Y. P., Xu, D., Wang, P., Song, C., Guo, Q. J., Liu, W. X., ... & Pan, J. W. (2016). Emulating anyonic fractional statistical behavior in a superconducting quantum circuit. Physical Review Letters, 117(11), 110501.

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