Keywords: 41.20.Jb; 42.79.Gn; Surface plasma resonance; Dual channel; Humidity; Temperature;
مقالات ISI (ترجمه نشده)
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Keywords: 42.82-m; 42.82.Et; 42.79.Gn; 42.79.Ci; Keywords:; Waveguide; Mode selection; Spatial filter;
Keywords: 42.79.Gn; 42.81.−I; 42.82.−mComputation method; Coupled waveguide structure; Waveguide dispersion; Mode propagation; Transparent boundary condition
Keywords: 42.82.Et; 42.79.Gn; 52.40.Hf; 52.25.âb; 2.79.Ci;
Asymmetric SPP waveguide without sacrificing the size of subwavelength waveguide
Keywords: Subwavelength optics; IMI waveguides; Loads of glass; Kretschmann structure; Localization41.20.Jb; 42.79.Gn
Photonic nanojet induced modes generated by a chain of dielectric microdisks
Keywords: 42.25.Bs; 42.79.Gn; 42.79.PwNanojet-induced mode; Microdisk; Waveguide
Epitaxial layers of KY1−x−yGdxLuy(WO4)2 doped with Er3+ and Tm3+ for planar waveguide lasers
Keywords: 42.70.−A; 42.70.Hj; 42.79.Gn; 42.82.Et; 78.20.−eMonoclinic double tungstates; Optical waveguides; Lanthanide ions; Liquid phase epitaxy
A novel proposal for DWDM demultiplexer design using modified-T photonic crystal structure
Keywords: 42.79.Sz; 42.79.Gn; 42.15.Eq; 42.70.QsPhotonic crystal; Wavelength; Defect; Modified-T; Resonant cavity; Crosstalk; Quality factor
Extended transfer matrix modeling of an erbium-doped cavity with SiO2/TiO2 Bragg reflectors
Keywords: 42.79.Gn; 42.79.Dj; 78.20.BhOptical microcavity; Bragg reflector; Transfer matrix; Erbium
Er3+/Yb3+-activated silica-hafnia planar waveguides for photonics fabricated by rf-sputtering
Keywords: 42.70.−a; 42.79.Gn; 64.70.ph; 76.30.Kg; 78.55.−m; 81.15.CdPlanar waveguides; Sputtering; Optical spectroscopy; Scanning electron microscopy; Luminescence; Infrared properties; Silicates; Rare-earth in glasses
Morphology of waveguide written by femtosecond laser in As2S3As2S3 glass
Keywords: 42.70.Ce; 42.79.Gn; 78.20.−e; 42.30.RxChalcogenides; Laser–matter interactions; Photo-induced effects
Heavy ion beam micromachining on LiNbO3
Keywords: 61.80.Jh; 85.85.+j; 87.85.Va; 61.82.M; 42.79.Gn; Direct write; Swift heavy ions; Lithium niobate; Wave guides;
Full-vectorial analysis of bending waveguides using finite difference method based on H-fields in cylindrical coordinate systems
Keywords: 42.82.âm; 42.79.Gn;
Current status and outlook for silicon-based optical biosensors
Keywords: 42.79.Gn; 42.82.−m; 87.85.fkSilicon; Optical; Sensor; Waveguide
Nanoplasmonic directional couplers and Mach-Zehnder interferometers
Keywords: 42.79.Fm; 42.79.Gn; Integrated optics devices; Waveguides; Surface plasmons;
Flat-topped beam output from a double-clad rectangular dielectric waveguide laser with a high-index inner cladding
Keywords: 42.55.Rz; 42.60.Jf; 42.79.Gn; 42.82.Et; Solid-state lasers; Flat-topped beam; Rectangular dielectric waveguide; Flattened mode;
Efficient transmission in cascaded photonic crystal waveguides via a strong coupling effect
Keywords: 42.70.Qs; 42.79.Gn; 42.25.Bs; Photonic crystal waveguide; Defects; Guide mode; Coupling effect;
The structure of SiO2–GeO2 glasses: A spectroscopic study
Keywords: 61.43.Fs; 81.05.Kf; 42.79.Gn; 61.05.cjRaman scattering; Optical fibers; Germania; Germanates; Silica; Structure; X-ray absorption
Design of tapering one-dimensional photonic crystal ultrahigh-Q microcavities
Keywords: 42.55.Tv; 42.79.Ci; 42.79.Gn; 85.60.BtPhotonic crystal; Microresonators; Filters; Finite difference methods; Q factor
Er3+-doped silica–hafnia films for optical waveguides and spherical resonators
Keywords: 42.70.−a; 42.60.Da; 42.79.Gn; 64.70.ph; 76.30.Kg; 78.67.Bf; 81.20.Fw; 81.05.PjGlass ceramics; Planar waveguides; Films and coatings; Nanoparticles; Luminescence; Optical spectroscopy; Infrared properties; Silica; Silicates; Rare-earths in glasses; Sol–gel
Numerical study of Two Photon Absorption effect on nonlinear directional couplers on coupled semiconductor waveguides
Keywords: 42.79.Gn; 42.65.Wi; 42.82.-mTwo Photon Absorption; Free carriers; Active nonlinear directional coupler; Fast Fourier Transform
Turbo-switched Mach-Zehnder interferometer performance as all-optical signal processing element at 160Â Gb/s
Keywords: 42.79.Gn; 42.70.Nq; 42.79.Ta; 42.65.Wi; 78.20.Bh; 85.30.âz; Semiconductor optical amplifier (SOA); Nonlinear optics; Patterning; Simulation; XOR logic gate; Wavelength conversion;
Single-material coupling-tolerant semi-planar microresonator using Littrow diffraction
Keywords: 42.79.Gn; 42.55.Sa; 42.60.Da; 42.79.Dj; 42.82.GwResonators; Gratings; Littrow diffraction; Surface coupling; Flat bands; Slow light
Nd-doped YVO4 waveguide films prepared by pulsed laser deposition
Keywords: 81.15.Fg; 42.79.Gn; 42.82. Et; Thin films; Laser deposition; Atomic force microscopy; Optical waveguide;
Self-deflection of partially spatially incoherent beams and solitons in photovoltaic photorefractive crystals
Keywords: 42.65.Tg; 42.65.Wi; 42.79.Gn; Partially spatially incoherent; Diffusion effect; Self-deflection; Photovoltaic soliton;
Optical propagation modified by Cu nanoparticle grating fabricated by heavy ion implantation
Keywords: Ion implantation; Metal nanoparticle; Grating; Waveguide78.67.Bf; 61.46.+w; 42.79.Gn; 61.72.Ww
Differential cavity mode spectroscopy: A new cavity enhanced technique for the detection of weak transitions
Keywords: 42.62.Fi; 42.79.Gn; Cavity-enhanced; Laser spectroscopy;
Reconstruction of extraordinary refractive index profiles of optical planar waveguides with single or double modes fabricated by O2+ ion implantation into lithium niobate
Keywords: 42.79.Gn; 42.82.EtIon implantation; Planar waveguide; Reconstruction of refractive index profile
Glass nanofibers for micro- and nano-scale photonic devices
Keywords: 42.79.Gn; 81.16.−cFibers and waveguides; Optical fibers; Optical properties; Silica
Growth of crystalline YbVO4 thin-film optical waveguides by pulsed laser deposition
Keywords: 42.70.Hj; 42.79.Gn; 81.15.Fg; Surface structure; X-ray diffraction; Characterization; Film deposition;
Design of a high efficiency wide-band 60° bend for TE polarization
Keywords: 42.79.Gn; 42.82.-mPhotonic crystals; Waveguides; Bends; High-transmission; Optimization; FDTD
Microstubs resonators integrated to bent Y-branch waveguide
Keywords: 41.20.-q; 42.25.Bs; 42.79.Gn; 42.79.Sz; 42.82.Bq; 42.82.EtPhotonic waveguide; Resonator; Stub; FDTD; Filter; Demultiplexer
Excitation of guided waves in materials with negative refraction
Keywords: 78.68.+m; 42.25.Bs; 42.79.Gn;
Strengthened poly(methacrylate) materials for optical waveguides and integrated functions
Keywords: 42.70.Jk; 42.68.Ay; 42.79.Gn; 42.60.Da; Poly(methylmethacrylate); Optical losses; Glass transition temperature; Ridge waveguides; Micro-ring resonators;
Families of spatial solitons in a two-channel waveguide with the cubic-quintic nonlinearity
Keywords: 42.65.Wi; 42.65.Tg; 42.79.Gn; 42.82.EtBifurcation; Symmetry breaking; Stability exchange; Breather
Ion beam etched diffraction gratings in fused quartz and lithium niobate
Keywords: 61.80.Jh; 81.65.Cf; 42.79.Gn; Ion beam etching; Photolithography; Diffraction grating; Lithium niobate; Fused quartz;
Erbium activated HfO2 based glass–ceramics waveguides for photonics
Keywords: 42.70.−a; 81.20.Fw; 42.79.Gn; 78.67.BfGlass–ceramics; Nanocrystals; Planar waveguides; Optical spectroscopy; STEM/TEM; Nanocrystals; Optical properties; Luminescence; Raman spectroscopy; Silicates; Rare-earths in glasses
Characterization of optical waveguide in Nd: GdVO4 by triple-energy oxygen ion implantation
Keywords: 42.79.Gn; 78.20.Ci; 61.80.Jh; Waveguide; Ion implantation; Nd:GdVO4 crystal;
Single-mode optical waveguides fabricated in LiNbO3 by multienergy C2+ implantations
Keywords: 42.79.Gn; 78.20.Ci; 61.80.Jh; Waveguide; Ion implantation; Propagation loss;
Waves in planar waveguide containing chiral nihility metamaterial
Keywords: 78.20.Ci; 41.20.Jb; 42.79.Gn
Photonic crystal waveguide sampled gratings
Keywords: 42.70.Qs; 42.79.Dj; 42.79.Gn; 42.79.SzPhotonic crystal waveguide; Sampled gratings; Coupled-mode theory; Transfer-matrix method
Coupled plasmon modes and their localization in graded plasmonic chains
Keywords: 78.67.-n; 73.20.Mf; 42.79.Gn; 78.67.Bf; Coupled plasmons; Plasmonics; Confinement; Transitions;
Reconstruction of extraordinary refractive index profile of O2+ ion-implanted LiNbO3 single-mode channel waveguide based on beam propagation method and image processing
Keywords: 42.79.Gn; 42.82.Et; Ion implantation; Reconstruction of refractive index profile; Single-mode channel waveguide; Intensity calculation method;
Tunable coupled plasmon modes via nanoshell particle chains
Keywords: 42.79.Gn; 42.79.Ry; 73.22.Lp; 71.45.GmNanoshells; Plasmonic waveguides; Dipole approximation
Synthesis and characterization of a photochromic sol–gel material functionalized with azo dye
Keywords: 42.70.Jk; 82.70.Gg; 42.79.Gn; 42.79.−e; 42.79.Dj
Three-dimensional hybrid modeling based on a beam propagation method and a diffraction formula for an AWG demultiplexer
Keywords: 42.79.Gn; 42.79.Sz; Arrayed waveguide grating; Hybrid method; Kirchhoff-Huygens diffraction; Beam propagation method; Polar coordinate; Flat-top;
Coherent thermal emission by microstructured waveguides
Keywords: 44.40.+a; 42.79.Gn; 42.25.Kb; Thermal radiation; Optical waveguides and couplers; Coherence;
Development of ion-implanted optical waveguides in optical materials: A review
Keywords: 42.79.Gn; 61.80.Jh; 42.70.−aOptical waveguides; Planar waveguides; Channel waveguides; Ion implantation; Nonlinear crystals; Laser crystals; Photorefractive crystals; Waveguide lasers; Waveguide frequency doubling; Two-wave mixing; Waveguide amplifiers
Er3+/Yb3+-codoped silica-germania sputtered films: structural and spectroscopic characterization
Keywords: 42.79.Gn; 78.30.âj; 78.55.âm; 81.15.Cd; Planar waveguides; Sputtering; Optical spectroscopy; Luminescence; Raman spectroscopy; Oxide glasses; Rare-earths in glasses;