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Realization of all-band-flat photonic lattices

Physics

Realization of all-band-flat photonic lattices

J. Yang, Y. Li, et al.

This groundbreaking research by Jing Yang, Yuanzhen Li, Yumeng Yang, Xinrong Xie, Zijian Zhang, Jiale Yuan, Han Cai, Da-Wei Wang, and Fei Gao explores all-band-flat photonic lattices of arbitrary size, using innovative inter-site coupling to enhance band flatness and usable bandwidth. The method allows for selective excitation of eigenmodes, paving the way for advanced control in photonic applications.... show more
Abstract
Flatbands play an important role in correlated quantum matter and have promising applications in photonic lattices. Synthetic magnetic fields and destructive interference in lattices are traditionally used to obtain flatbands. However, such methods can only obtain a few flatbands with most bands remaining dispersive. Here we realize all-band-flat photonic lattices of an arbitrary size by precisely controlling the coupling strengths between lattice sites to mimic those in Fock-state lattices. This allows us to go beyond the perturbative regime of strain engineering and group all eigenmodes in flat-bands, which simultaneously achieves high band flatness and large usable bandwidth. We map out the distribution of each flatband in the lattices and selectively excite the eigenmodes with different chiralities. Our method paves a way in controlling band structure and topology of photonic lattices.
Publisher
Nature Communications
Published On
Feb 19, 2024
Authors
Jing Yang, Yuanzhen Li, Yumeng Yang, Xinrong Xie, Zijian Zhang, Jiale Yuan, Han Cai, Da-Wei Wang, Fei Gao
DOI
https://doi.org/10.1038/s41467-024-45580-w
Tags
flatbands
photonic lattices
quantum matter
inter-site coupling
band structure
selective excitation
topology

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