about
Reconfigurable optical assembly of nanostructures.Defect Mode Emission of a Dye Doped Cholesteric Polymer NetworkUltrahigh-Q optomechanical crystal cavities fabricated in a CMOS foundryPolariton condensation in solitonic gap states in a one-dimensional periodic potential.Lasing in a three-dimensional photonic crystal of the liquid crystal blue phase II.Optical microcavities.High-Q photonic nanocavity in a two-dimensional photonic crystal.A fast low-power optical memory based on coupled micro-ring lasers.Quantum cascade surface-emitting photonic crystal laser.Controlling the dynamics of spontaneous emission from quantum dots by photonic crystals.Semiclassical model of stimulated Raman scattering in photonic crystals.Strong interactions in multimode random lasers.Microcavity laser oscillating in a circuit-based resonator.Charge stabilized crystalline colloidal arrays as templates for fabrication of non-close-packed inverted photonic crystalsThree-dimensional nanometer-scale optical cavities of indefinite medium.Thresholdless nanoscale coaxial lasers.Self-assembled flexible microlasers.Enabling single-mode behavior over large areas with photonic Dirac cones.Cavity-free plasmonic nanolasing enabled by dispersionless stopped light.Plasmonic lasers: A sense of direction.Light extraction--a practical consideration for a plasmonic nano-ring laser.Multi-colour nanowire photonic crystal laser pixelsAlignment of crystal orientations of the multi-domain photonic crystals in Parides sesostris wing scales.Narrow band wavelength selective filter using grating assisted single ring resonator.Ultralow-threshold electrically injected AlGaN nanowire ultraviolet lasers on Si operating at low temperature.Monolayer semiconductor nanocavity lasers with ultralow thresholds.Printed Large-Area Single-Mode Photonic Crystal Bandedge Surface-Emitting Lasers on Silicon.Single mode lasing from hybrid hemispherical microresonators.Colloidal quantum dot lasers built on a passive two-dimensional photonic crystal backbone.Design of plasmonic cavitiesFabrication of 1-D Photonic Crystal Cavity on a Nanofiber Using Femtosecond Laser-induced Ablation.Ultrahigh Purcell factor in low-threshold nanolaser based on asymmetric hybrid plasmonic cavity.Slab thickness tuning approach for solid-state strong coupling between photonic crystal slab nanocavity and a quantum dot.Responsive photonic crystals.Porous silicon microcavities: synthesis, characterization, and application to photonic barcode devices.Functional materials from cellulose-derived liquid-crystal templates.Effect of disorder on the optical properties of colloidal crystals.Robustness and mode selectivity in parity-time (PT) symmetric lasers.Two-dimensional photonic crystal Bragg lasers with triangular lattice for monolithic coherent beam combining.Surface plasmon polariton laser based on a metallic trench Fabry-Perot resonator.
P2860
Q27342159-E8C6A872-AFB6-498B-922A-25DA76ED0EBCQ27450892-D123CA1F-E023-4271-AF6A-96E0EB419BBDQ30355442-6EBC3036-AE8B-4952-B116-36E4F5FFCAE1Q30454560-52393C10-E357-4036-AA1B-E124B00689B1Q30891516-02DAABCE-EEE1-4172-A21E-69EF3EFE92F0Q30976356-9D66EC5A-CBD2-4CD3-B6E7-5E5EA9FAE622Q31019955-6418F5A2-2DCD-4A32-853D-F4927B715887Q31126806-1B2D0677-E798-4FDD-BB65-C493EBC68977Q33194411-080945D5-C66B-4D5F-8A53-F36D19593A53Q33205508-0CAA79C6-FDA0-4622-AD0C-41B2FCA40D74Q33221421-32A1F187-CC5D-4F54-B458-BF38EF140E55Q33331303-88E53B30-5AE3-4C76-943F-F2196C78EA14Q33542947-BD8887D7-F5B9-4D07-AA3A-D5407041B081Q33902512-2CDE5AC0-3191-4111-8585-5F1AE8813EB1Q33944236-B2DC1F94-EFAD-4539-B44A-7FF5399251A8Q34154163-710BA776-A0AF-4E1A-9D7F-E51049E0F2C4Q34155845-96B6D77B-EC55-4043-9352-C72C8BFFA0BCQ34292106-3FFF10C4-DF30-42D3-BC58-193B8852E949Q34349143-AB96F8C3-53D9-4C53-84E4-1D2D77CE6237Q34791009-972DE484-3433-43C5-8C8C-B4B23F33DE60Q35004038-9E7D7BA8-0864-44F2-B9B7-EC0CC5B20D68Q35019994-1D47280D-0822-44E3-86C4-0D163E7831D9Q35071635-716EA42D-1BE3-4387-A0C9-5ACF316876FBQ35292693-4707D43D-534A-48D2-B74D-13187F6DC0BBQ35544510-09FE495C-0370-40C1-B6B9-661809FC8A24Q35578993-EEEDBBD6-D4E8-461C-AE4D-B0BD4E4503D0Q35884224-EF84E465-4E05-4225-A656-C9DE9B95524DQ35915219-09E2884B-BFE0-46FA-8463-90B7302754F1Q35943505-7DE501B5-2FFD-4E36-8B8F-420D7D01E4EBQ36278183-63B3F547-884F-4977-ACDF-0EF39CD9EBCFQ36305988-7B97339A-F51C-4229-B6FF-3004528BCF33Q37247788-85EEF78A-9BDB-46CF-9C5F-71CD9C9A7750Q37334639-CE6DA352-A784-4FCF-BE62-26874C4349C7Q37831275-EDB2D186-0D06-4DDE-863E-41CDBBDCA3FAQ38040132-18F1E6D6-8BD1-4800-B774-7693CF92E87FQ38293066-74479FF1-D7D8-42EA-8763-698C66DB6D21Q39707413-DE998BF4-0EF3-412F-8354-8E06F8F0BC10Q41544310-0C533862-E59E-4B62-B0B0-24278BC85C66Q41628417-816A5BC9-BCBB-48B4-9AF1-4423F259E8A4Q42275341-924DB024-0819-4953-B8AC-88C55FE7A0ED
P2860
description
1999 nî lūn-bûn
@nan
1999 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի հունիսին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
Two-dimensional photonic band-Gap defect mode laser
@ast
Two-dimensional photonic band-Gap defect mode laser
@en
type
label
Two-dimensional photonic band-Gap defect mode laser
@ast
Two-dimensional photonic band-Gap defect mode laser
@en
prefLabel
Two-dimensional photonic band-Gap defect mode laser
@ast
Two-dimensional photonic band-Gap defect mode laser
@en
P2093
P1433
P1476
Two-dimensional photonic band-Gap defect mode laser
@en
P2093
O'Brien JD
P304
P356
10.1126/SCIENCE.284.5421.1819
P407
P577
1999-06-01T00:00:00Z