2024
Tunable chiral spin–spin interactions in a spin-mechanical hybrid system: application to causal-effect simulation
Li B, Li X, Zhao X, Zhang Y, Wang H, Li F. Tunable chiral spin–spin interactions in a spin-mechanical hybrid system: application to causal-effect simulation. New Journal Of Physics 2024, 26: 023029. DOI: 10.1088/1367-2630/ad24a1.Peer-Reviewed Original ResearchSpin-spin interactionsSu-Schrieffer-Heeger modelCoupled quantum systemsHybrid quantum devicesQuantum information processingSpin–spin coupling interactionsSpin-spin couplingChiral symmetrySpin qubitsQuantum systemsQuantum simulationSpin-phononQuantum devicesMechanical latticeChiral interactionsCorrelation functionManipulating voltageCoupling interactionInformation processingOn-chipQubitsHamiltonianSpinSublatticeSymmetry
2023
Simultaneous creation of multiple vortex-antivortex pairs in momentum space in photonic lattices
Li F, Koniakhin S, Nalitov A, Cherotchenko E, Solnyshkov D, Malpuech G, Xiao M, Zhang Y, Zhang Z. Simultaneous creation of multiple vortex-antivortex pairs in momentum space in photonic lattices. Advanced Photonics 2023, 5: 066007-066007. DOI: 10.1117/1.ap.5.6.066007.Peer-Reviewed Original ResearchPhotonic latticesOrbital angular momentumMomentum spaceSingle focused Gaussian beamHexagonal photonic latticesFocused Gaussian beamVortex-antivortex pairsRich physicsOAM conversionDirac pointWave packetsGaussian beamUnstructured lightAngular momentumVortex arrayHoneycomb latticeExperimental creationSimultaneous creationPhysicsLatticeTopological propertiesSymmetryPotential applicationsVorticesLight