Litcius/Paper detail

Cavity-magnon polaritons strongly coupled to phonons

Rui-Chang Shen, Jie Li, Yiming Sun, Wei-Jiang Wu, Xuan Zuo, Yi‐Pu Wang, Shi‐Yao Zhu, J. Q. You

2025Nature Communications22 citationsDOIOpen Access PDF

Abstract

Building hybrid quantum systems is a crucial step for realizing multifunctional quantum technologies, quantum information processing, and hybrid quantum networks. A functional hybrid quantum system requires strong coupling among its components, however, couplings between distinct physical systems are typically very weak. Here we demonstrate the realization of triple strong coupling in a polaromechanical hybrid system where polaritons, formed by strongly coupled ferromagnetic magnons and microwave photons, are further strongly coupled to phonons. We observe the corresponding polaromechanical normal-mode splitting. By significantly reducing the polariton decay rate via realizing coherent perfect absorption, we achieve a high polaromechanical cooperativity of 9.4 × 103. A quantum cooperativity much greater than unity is achievable at cryogenic temperatures, which would enable various quantum applications. Our results pave the way towards coherent quantum control of photons, magnons and phonons, and are a crucial step for building functional hybrid quantum systems based on magnons. Hybrid quantum systems offer increased functionality, however, they require strong coupling between components. Here, Shen and coauthors achieve strong coupling between polaritons, formed by strongly coupled magnons and photons, and phonons, paving the way for polaromechanical hybrid systems.

Topics & Concepts

MagnonPolaritonPhononPhysicsCondensed matter physicsFerromagnetismMechanical and Optical ResonatorsStrong Light-Matter InteractionsPhotonic and Optical Devices