Litcius/Paper detail

Stationary Entanglement between Light and Microwave via Ferromagnetic Magnons

Qizhi Cai, Jinkun Liao, Qiang Zhou

2020Annalen der Physik29 citationsDOIOpen Access PDF

Abstract

Abstract It is shown how to generate stationary entanglement between light and microwave in a hybrid opto‐electro‐magnonical system which mainly consists of a microwave cavity, a yttrium iron garnet (YIG) sphere, and a nanofiber. The optical modes in nanofiber can evanescently be coupled to whispering gallery modes, that are able to interact with magnon mode via spin–orbit interaction, in YIG sphere, while the microwave cavity photons and magnons are coupled through magnetic dipole interaction simultaneously. Under reasonable parameter regimes, pretty amount of entanglement can be generated, and it also shows persistence against temperature. The present work is expected to provide a new perspective for building more advanced and comprehensive quantum networks along with magnons for fast‐developing quantum technologies and for studying the macroscopic quantum phenomena.

Topics & Concepts

MagnonPhysicsQuantum entanglementMicrowaveYttrium iron garnetWhispering-gallery waveQuantumCondensed matter physicsPhotonFerromagnetismMicrowave cavityQuantum mechanicsDipoleSpin waveQuantum informationQuantum technologyQuantum opticsPhoton entanglementQuantum sensorOperator (biology)Optical cavityCavity quantum electrodynamicsQuantum correlationMagnetic fieldNonclassical lightCoupling (piping)Quantum networkMechanical and Optical ResonatorsMetamaterials and Metasurfaces ApplicationsNear-Field Optical Microscopy