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Observation of emergent momentum-time skyrmions in parity-time-symmetric non-unitary quench dynamics.


ABSTRACT: Topology in quench dynamics gives rise to intriguing dynamic topological phenomena, which are intimately connected to the topology of static Hamiltonians yet challenging to probe experimentally. Here we theoretically characterize and experimentally detect momentum-time skyrmions in parity-time [Formula: see text]-symmetric non-unitary quench dynamics in single-photon discrete-time quantum walks. The emergent skyrmion structures are protected by dynamic Chern numbers defined for the emergent two-dimensional momentum-time submanifolds, and are revealed through our experimental scheme enabling the construction of time-dependent non-Hermitian density matrices via direct measurements in position space. Our work experimentally reveals the interplay of [Formula: see text] symmetry and quench dynamics in inducing emergent topological structures, and highlights the application of discrete-time quantum walks for the study of dynamic topological phenomena.

SUBMITTER: Wang K 

PROVIDER: S-EPMC6533298 | biostudies-literature | 2019 May

REPOSITORIES: biostudies-literature

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Observation of emergent momentum-time skyrmions in parity-time-symmetric non-unitary quench dynamics.

Wang Kunkun K   Qiu Xingze X   Xiao Lei L   Zhan Xiang X   Bian Zhihao Z   Sanders Barry C BC   Yi Wei W   Xue Peng P  

Nature communications 20190523 1


Topology in quench dynamics gives rise to intriguing dynamic topological phenomena, which are intimately connected to the topology of static Hamiltonians yet challenging to probe experimentally. Here we theoretically characterize and experimentally detect momentum-time skyrmions in parity-time [Formula: see text]-symmetric non-unitary quench dynamics in single-photon discrete-time quantum walks. The emergent skyrmion structures are protected by dynamic Chern numbers defined for the emergent two-  ...[more]

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