Uncover Topology by Quantum Quench Dynamics

Uncover Topology by Quantum Quench Dynamics

Topological quantum states are characterized by nonlocal invariants. We present a new dynamical approach for ultracold-atom systems to uncover their band topology, and we provide solid evidence to demonstrate its experimental advantages. After quenching a two-dimensional (2D) Chern band, realized in...

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Veröffentlicht in:Physical review letters 2018-12, Vol.121 (25), p.250403-250403, Article 250403
Hauptverfasser: Sun, Wei, Yi, Chang-Rui, Wang, Bao-Zong, Zhang, Wei-Wei, Sanders, Barry C, Xu, Xiao-Tian, Wang, Zong-Yao, Schmiedmayer, Joerg, Deng, Youjin, Liu, Xiong-Jun, Chen, Shuai, Pan, Jian-Wei
Format: Artikel
Sprache:eng
Schlagworte:
Phase diagrams
Ring structures
Rings (mathematics)
Spin dynamics
Topology
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Zusammenfassung:Topological quantum states are characterized by nonlocal invariants. We present a new dynamical approach for ultracold-atom systems to uncover their band topology, and we provide solid evidence to demonstrate its experimental advantages. After quenching a two-dimensional (2D) Chern band, realized in an ultracold ^{87}Rb gas from a trivial to a topological parameter regime, we observe an emerging ring structure in the spin dynamics during the unitary evolution, which uniquely corresponds to the Chern number for the postquench band. By extracting 2D bulk topology from the 1D ring pattern, our scheme displays simplicity and is insensitive to perturbations. This insensitivity enables a high-precision determination of the full phase diagram for the system's band topology.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.121.250403