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Topological complex-energy braiding of non-Hermitian bands

Kai Wang, Avik Dutt, Charles C. Wojcik and Shanhui Fan ()
Additional contact information
Kai Wang: Stanford University
Avik Dutt: Stanford University
Charles C. Wojcik: Stanford University
Shanhui Fan: Stanford University

Nature, 2021, vol. 598, issue 7879, 59-64

Abstract: Abstract Effects connected with the mathematical theory of knots1 emerge in many areas of science, from physics2,3 to biology4. Recent theoretical work discovered that the braid group characterizes the topology of non-Hermitian periodic systems5, where the complex band energies can braid in momentum space. However, such braids of complex-energy bands have not been realized or controlled experimentally. Here, we introduce a tight-binding lattice model that can achieve arbitrary elements in the braid group of two strands š¯”¹2. We experimentally demonstrate such topological complex-energy braiding of non-Hermitian bands in a synthetic dimension6,7. Our experiments utilize frequency modes in two coupled ring resonators, one of which undergoes simultaneous phase and amplitude modulation. We observe a wide variety of two-band braiding structures that constitute representative instances of links and knots, including the unlink, the unknot, the Hopf link and the trefoil. We also show that the handedness of braids can be changed. Our results provide a direct demonstration of the braid-group characterization of non-Hermitian topology and open a pathway for designing and realizing topologically robust phases in open classical and quantum systems.

Date: 2021
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Citations: View citations in EconPapers (11)

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DOI: 10.1038/s41586-021-03848-x

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