about
Brillouin-scattering-induced transparency and non-reciprocal light storage.Efficient coupling between dielectric waveguide modes and exterior plasmon whispering gallery modes.Two-photon pumped lasing in single-crystal organic nanowire exciton polariton resonators.Perpendicular coupler for whispering-gallery resonators.Highly unidirectional emission and ultralow-threshold lasing from on-chip ultrahigh-Q microcavities.Theory of free space coupling to high-Q whispering gallery modes.Independently analyzing different surface plasmon polariton modes on silver nanowire.Controlled self-assembly of organic composite microdisks for efficient output coupling of whispering-gallery-mode lasers.Integrated optical circulator by stimulated Brillouin scattering induced non-reciprocal phase shift.Transient microcavity sensor.Output Coupling of Perovskite Lasers from Embedded Nanoscale Plasmonic Waveguides.Long-distance synchronization of unidirectionally cascaded optomechanical systems.Magnon dark modes and gradient memoryTunable Raman laser in a hollow bottle-like microresonator.Strongly Coupled Nanotube Electromechanical Resonators.Dual-color single-mode lasing in axially coupled organic nanowire resonators.Integrated polarization rotator/converter by stimulated Raman adiabatic passage.Phase sensitive imaging of 10 GHz vibrations in an AlN microdisk resonator.Route-asymmetrical optical transmission and logic gate based on optical gradient force.Strongly coupled magnons and cavity microwave photons.Optical wavelength filters based on photonic confinement in semiconductor nanowire homojunctions.Dielectric bow-tie nanocavity.Reconfigurable optomechanical circulator and directional amplifier.One-Dimensional Dielectric/Metallic Hybrid Materials for Photonic ApplicationsExperimental realization of optomechanically induced non-reciprocityWhispering-gallery microcavities with unidirectional laser emissionExperimental controlling of Fano resonance in indirectly coupled whispering-gallery microresonatorsMovable Fiber-Integrated Hybrid Plasmonic Waveguide on Metal FilmProposal for a near-field optomechanical system with enhanced linear and quadratic couplingBroadband Enhancement of Light Harvesting in a Luminescent Solar ConcentratorExperimental observation of Fano resonance in a single whispering-gallery microresonatorMechanism of directional emission from a peanut-shaped microcavityAsymmetric resonant cavities and their applications in optics and photonics: a reviewHigh-QExterior Whispering-Gallery Modes in a Metal-Coated MicroresonatorHigh-Q nanoring surface plasmon microresonatorPlasmon modes of silver nanowire on a silica substrateQuantum electrodynamics in a whispering-gallery microcavity coated with a polymer nanolayerAccurately calculating high Q factor of whispering-gallery modes with boundary element methodAccurately calculating high quality factor of whispering-gallery modes with boundary element methodModified transmission spectrum induced by two-mode interference in a single silica microsphere
P50
Q30418121-EC218651-3C44-423A-AEC2-4B2824EAA998Q31151378-46E2CC71-93E8-4058-BB18-B3ED56B37F31Q33881135-D81796E9-4197-4B5B-B436-1D7CF52834CFQ34363722-58C10929-BF1C-4AAB-8096-CC374485E141Q34377542-AC044F2F-4508-418B-AFB1-C51F5534D7F6Q34681861-C0658278-5A7D-4E79-B2EE-C3D4462996D8Q35339794-AF6934AC-C1B4-4229-BA4F-FACE9D2CE916Q35533527-4FBA3D94-52A5-4E51-BA0A-4EB6FEBC7456Q35788176-5EF90515-A336-4D06-9E6B-C25F356BFCABQ35876718-028435AC-E3EF-4B90-80DF-2FE00C82A70AQ35915933-A0E8CFB0-21B8-446A-9AC5-2F26CF90D4E4Q36075369-2F2F1B49-CA52-4B77-A0BE-03413B42B1B8Q36320742-9DE72833-18E5-4D46-B27F-E5D7C71BB186Q38645402-F26275F2-F24D-4826-B729-6131ACDDF174Q38834919-E73C3764-0A16-4F39-933E-83BD3B2E9B6EQ41107003-259012A4-E5BA-45F3-8380-5D65BDE56922Q44895939-B8ACBBCD-AD1B-470E-87CE-3C73C3513EB2Q47209292-447916AE-E118-4592-9B08-06094ACC2EA9Q48059732-CE27AA1C-878F-4CB3-8175-70C51536A03CQ53396493-C885D551-067F-450E-A511-FE1B1F1B0121Q54414638-D78DE33C-789F-4875-B4EF-885E119D192CQ54467007-FBD74769-6C0F-4F79-A55C-5CFEDBE8561BQ54974428-E1F90735-AA0F-456A-AF72-4BCFF371F73BQ57344684-9E2041DE-07E3-490D-BF0E-80B1F48140E7Q57647482-3D12871D-5330-448F-BDE8-2B34A0CBB24AQ57647510-6D356819-6774-4AA3-8158-CA4C2A4E6DD4Q57647663-297207F7-2C32-4AE8-9280-D6109DA669FCQ57647673-B432A432-D810-426D-97E0-7F32803E27B9Q57647677-800D8946-17E7-490E-90DC-274FBBFB7D47Q57647695-4AE50568-F0BB-4E82-8EA7-7AFC69F865BCQ57647714-5FF03655-CCC9-42CC-B74F-C7A1D576FAE0Q57647723-C003AEFF-C744-4A66-94B8-5F6797F99422Q57647745-B601F84C-C72D-49C7-A823-CB6B84CF2DBAQ57647769-4098CE56-2BF9-41B7-9902-34DAF04A933BQ57647772-3193D50C-82AC-4C3F-917F-01978F3ABD19Q57647796-74A44C25-3485-40A2-9517-8BBFF9322372Q57647804-8933E813-F45E-466A-8CE9-C513C037C28CQ57647812-89B5DBBD-2F31-414A-82EB-5996984C4B22Q57647815-F76FECC8-CF95-42DE-9B8C-D7F1BC6FF00BQ57647827-8D0FDC18-2328-41B7-93A9-4024A03A7A61
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Chang-Ling Zou
@ast
Chang-Ling Zou
@en
Chang-Ling Zou
@es
Chang-Ling Zou
@nl
type
label
Chang-Ling Zou
@ast
Chang-Ling Zou
@en
Chang-Ling Zou
@es
Chang-Ling Zou
@nl
prefLabel
Chang-Ling Zou
@ast
Chang-Ling Zou
@en
Chang-Ling Zou
@es
Chang-Ling Zou
@nl
P106
P108
P31
P496
0000-0003-2484-7292