Publication | Open Access
Realizing Persistent-Spin-Helix Lasing in the Regime of Rashba-Dresselhaus Spin-Orbit Coupling in a Dye-Filled Liquid-Crystal Optical Microcavity
20
Citations
24
References
2022
Year
Quantum LiquidQuantum PhotonicsEngineeringPersistent-spin-helix LasingSpin TexturesSpin DynamicSpin PhenomenonOptical PropertiesPersistent Spin HelixOptical PumpingPhotonicsQuantum ScienceSpin-orbit EffectsPhysicsSpin CoherenceLiquid-crystal MicrocavityQuantum MagnetismSpintronicsRashba-dresselhaus Spin-orbit CouplingNatural SciencesApplied Physics
In the presence of Rashba-Dresselhaus coupling, strong spin-orbit interactions in liquid-crystal optical cavities result in a distinctive spin-split entangled dispersion. Spin coherence between such modes gives rise to an optically persistent spin helix. In this paper, we introduce optical gain in such a system, by dispersing a molecular dye in a liquid-crystal microcavity, and demonstrate an optically persistent spin-helix lasing in the Rashba-Dresselhaus regime.
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