2024
Dual Orthogonally Polarized Lasing Assisted by Imaginary Fermi Arcs in Organic Microcavities
Long T, Ren J, Li P, Yun F, Malpuech G, Solnyshkov D, Fu H, Li F, Liao Q. Dual Orthogonally Polarized Lasing Assisted by Imaginary Fermi Arcs in Organic Microcavities. Physical Review Letters 2024, 133: 123802. PMID: 39373430, DOI: 10.1103/physrevlett.133.123802.Peer-Reviewed Original ResearchFermi arcsPhotonic spin-orbit couplingNon-Hermitian opticsSpin-orbit couplingTopological photonicsPolarization-dependent lossOrganic microcavityPolarization controlSingle crystalsOrganic microlasersMicrocavityControl of micro-Organic single crystalsSimultaneous generationCouplingEigenstatesFermiPhotonsNanolasersMicrolasersNanophotonicsOpticsPolarizationArcCrystal
2023
Combining three sources of optical anisotropy in a tunable open-access microcavity: From theory to experiment
Li Y, Luo X, Guo Y, Ren J, Long T, Wang B, Cai Y, Guo C, Qin Y, Fu H, Zhang Y, Yun F, Liao Q, Li F. Combining three sources of optical anisotropy in a tunable open-access microcavity: From theory to experiment. Journal Of Applied Physics 2023, 134: 223106. DOI: 10.1063/5.0173709.Peer-Reviewed Original ResearchOpen‐access microcavityPhotonic spin-orbit couplingTE-TM splittingSpin-orbit couplingFine energy splittingOptical property measurementsEmergent anisotropyMicrocavity photonsImportant physical mechanismsDegenerate perturbation theoryPhotonic devicesExciton-polaritonsPhotonic potentialPolarization controlSO couplingOptical anisotropySpin vorticesActive mediumEnergy splittingClear observationPhysical mechanismsPerturbation theoryMicrocavitiesIsotropic situationEigenstates