Moire exciton polaritons in twisted photonic lattices at room temperature

arXiv - PHYS - Optics Pub Date : 2024-08-05 DOI:arxiv-2408.02431

Chunzi Xing, Yu Wang, Tobias Schneider, Xiaokun Zhai, Xinzheng Zhang, Zhenyu Xiong, Hao Wu, Yuan Ren, Haitao Dai, Xiao Wang, Anlian Pan, Stefan Schumacher, Xuekai Ma, Tingge Gao

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Abstract

Moire lattices attract intensive attention in the double graphene/TMD layers and photonic crystals due to the interesting exotic physics within these structures. However, precise measurement of the moir'e ground states, excited states and Bloch bands in the twisted photonic lattices is still illusive. In this work we report the strong coupling between the excitons of CsPbBr3 microplates and the photonic modes of the moire lattice at room temperature. Depending on the coupling strength between the nearest potential sites, we observe staggered moire polariton ground states, excited states trapped in the potential sites and moire polariton bands across the twisted photonic lattice. In addition, the phase locking of moire zero (stable in-phase) states and moire pi (metastable antiphase) states with different spatial distributions are measured. Moir'e polariton distribution can be tuned in the shape of parallelogram by controlling the depth and width of the potential in one photonic lattice with another one fixed. Our work lays the foundation to study moir'e exciton polariton Wigner crystals and Luttinger liquid in twisted photonic lattices at room temperature.

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室温下扭曲光子晶格中的莫伊雷激子极化子

双石墨烯/TMD 层和光子晶体中的莫伊尔晶格因其结构中有趣的奇异物理而备受关注。然而，对扭曲光子晶格中的摩尔基态、激发态和布洛赫带的精确测量仍然是个未知数。在这项工作中，我们报告了室温下 CsPbBr3 微板激子与摩尔晶格光子模式之间的强耦合。根据最近势位之间的耦合强度，我们观察到交错的摩尔极化子基态、被困在势位中的激发态以及整个扭曲光子晶格中的摩尔极化子带。此外，我们还测量了具有不同空间分布的摩尔零（稳定同相）态和摩尔皮（可陨反相）态的锁相。通过控制一个光子晶格中电势的深度和宽度，可以将莫伊尔极化子的分布调整为平行四边形。我们的工作为在室温下研究扭曲光子晶格中的莫伊耳极化子维格纳晶体和鲁丁格液体奠定了基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Optics

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