具有非厄米拓扑相的极化激元晶体中的合成能带结构工程

Synthetic band-structure engineering in polariton crystals with non-Hermitian topological phases.

作者信息

Pickup L, Sigurdsson H, Ruostekoski J, Lagoudakis P G

机构信息

Department of Physics and Astronomy, University of Southampton, Southampton, SO17 1BJ, UK.

Skolkovo Institute of Science and Technology, Novaya Street 100, Skolkovo, 143025, Russian Federation.

出版信息

Nat Commun. 2020 Sep 4;11(1):4431. doi: 10.1038/s41467-020-18213-1.

DOI:10.1038/s41467-020-18213-1

PMID:32887871

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7474071/

Abstract

Synthetic crystal lattices provide ideal environments for simulating and exploring the band structure of solid-state materials in clean and controlled experimental settings. Physical realisations have, so far, dominantly focused on implementing irreversible patterning of the system, or interference techniques such as optical lattices of cold atoms. Here, we realise reprogrammable synthetic band-structure engineering in an all optical exciton-polariton lattice. We demonstrate polariton condensation into excited states of linear one-dimensional lattices, periodic rings, dimerised non-trivial topological phases, and defect modes utilising malleable optically imprinted non-Hermitian potential landscapes. The stable excited nature of the condensate lattice with strong interactions between sites results in an actively tuneable non-Hermitian analogue of the Su-Schrieffer-Heeger system.

摘要

合成晶格为在清洁且可控的实验环境中模拟和探索固态材料的能带结构提供了理想环境。到目前为止，物理实现主要集中在对系统进行不可逆图案化，或采用诸如冷原子光学晶格等干涉技术。在此，我们在全光激子 - 极化子晶格中实现了可重新编程的合成能带结构工程。我们利用可塑的光学印记非厄米势场，展示了极化子凝聚到线性一维晶格、周期性环、二聚化非平凡拓扑相以及缺陷模式的激发态中。凝聚晶格的稳定激发特性以及位点间的强相互作用导致了一个可主动调谐的Su - Schrieffer - Heeger系统的非厄米类似物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8852/7474071/c650a53a6a54/41467_2020_18213_Fig1_HTML.jpg

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具有非厄米拓扑相的极化激元晶体中的合成能带结构工程

Synthetic band-structure engineering in polariton crystals with non-Hermitian topological phases.

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