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Two-Dimensional Magnetic Exciton Polariton with Strongly Coupled Atomic and Photonic Anisotropies

Qiuyang Li, Xin Xie, Adam Alfrey, Christiano W. Beach, Nicholas McLellan, Yang Lü, Jiaqi Hu, Wenhao Liu, Nikhil Dhale, Bing Lv, Liuyan Zhao, Kai Sun, Hui Deng

2024Physical Review Letters12 citationsDOI

Abstract

Anisotropy is a fundamental property of both material and photonic systems. The interplay between material and photonic anisotropies, however, has hardly been explored due to the vastly different length scales. Here we demonstrate exciton polaritons in a 2D antiferromagnet, CrSBr, coupled with an anisotropic photonic crystal cavity, where the spin, atomic, and photonic anisotropies are strongly correlated. Atomic anisotropy led to exceptionally strong coupling between anisotropic exciton and optical modes, which are stable against excitation densities a few orders of magnitude higher than polaritons in isotropic materials. The resulting polaritons feature anisotropic polarizations determined by the interplay of not only the anisotropies but also the dissipations and coupling of both exciton and photon modes, tunable by tens of degrees via many parameters. The work provides insights of excitons in CrSBr and demonstrates a prototype where atomic- and photonic-scale orders strongly couple, giving rise to unconventional properties in quantum materials and photonic devices.

Topics & Concepts

PolaritonExcitonPhysicsCondensed matter physicsPhotonicsAnisotropyAtomic physicsMaterials scienceQuantum mechanicsStrong Light-Matter InteractionsPlasmonic and Surface Plasmon ResearchQuantum Information and Cryptography