Search results for "dispersion curve"

showing 6 items of 6 documents

Scaling symmetries and optimization of the refractive index profile in optical fibers

2019

The optical fiber refractive index profile has a significant role in the optical devices fabrication like fiber Bragg gratings (FBG) and acousto-optic devices and the way guided light interacts in the presence of external factors like strain, stress or even bends. The analysis of the fiber profile gets to be feasible throughout understanding the properties of the optical guided modes such as the effective index, group index, and the chromatic dispersion. Taking a broader look at previous publications that use standard commercial optical fibers, it becomes noticeable that the ideal core-cladding step index profile gives incompatible results when it comes to the experimental versus the simula…

bragg gratingoptical fiberUNESCO::FÍSICA::Ópticarefractive index profilescaling transformation:FÍSICA::Óptica ::Fibras ópticas [UNESCO]acousto-optic-interaction:FÍSICA::Óptica [UNESCO]Physics::Opticsmode couplingdispersion curvesUNESCO::FÍSICA::Óptica ::Fibras ópticas
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Vacuum Rabi splitting for surface plasmon polaritons and Rhodamine 6G molecules

2011

We report on strong coupling between surface-plasmon polaritons and Rhodamine 6G molecules at room temperature. As a reference to compare with, we first determine the dispersion curve of (uncoupled) surface plasmon polaritons on a 50 nm thick film of silver. Consequently, we determine the dispersion curve of surface plasmon polaritons strongly coupled to Rhodamine 6G molecules, which exhibits vacuum Rabi splitting. Depending on the Rhodamine 6G concentration, we find splitting energies between 0.05 eV and 0.13 eV.

Materials scienceta214Condensed matter physicsta114Surface plasmonta221educationtechnology industry and agriculturevacuum Rabi splittingdispersion curveMolecular physicsSurface plasmon polaritonRhodamine 6Gchemistry.chemical_compoundchemistrysurface plasmon polaritonDispersion (optics)strong couplingStrong couplingPolaritonMoleculeta218Localized surface plasmon
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Gap solitons in nonlinear electrical transmission lines

2005

We study theoretically and numerically the properties of monochromatic waves in a nonlinear electrical transmission line,whose capacitance has a periodic spatial variation.ln the continuum limit and weak amplitude limit we reduce the characteristic equations of this system to NLS equation. We find analytical solutions for the voltage envelope, which propagate with frequency in the gap induced by the capacitance periodicity. Our numerical experiments show that, when the input voltage increases, the transmissivity in the gap increases and the voltage envelope approaches the stationnary shape predicted by theory.

Physicsbusiness.industryCondensed Matter::Mesoscopic Systems and Quantum Hall EffectDispersion curveCapacitanceComputational physicsNonlinear systemOpticsElectric power transmissionAmplitudeMonochromatic colorbusinessMonochromatic electromagnetic plane waveVoltage
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Rotationsdispersion bei monomerem und polymerem L-(–)-Lactid

1965

Bei der kationischen Polymerisation von L-Lactid entsteht ein hochkristallines, isotaktisches Polymeres. Physikalische Eigenschaften des Monomeren und Polymeren werden mitgeteilt. Fur die Rotationsdispersion von L-Lactid in verschiedenen Losungsmitteln gilt die eintermige DRUDE-Gleichung. Das Polymere hat eine Dispersions-Kurve mit einem ersten Extremum bei 275 mμ. Die Dispersionskurve des Poly-L-lactids last sich durch die MOFFITT-YANG-Gleichung beschreiben. Hieraus werden Schlusse auf die Sekundarstruktur des gelosten Polymeren gezogen. In the cationic polymerization of L-lactide a high cristalline isotactic polymer is obtained. Physical properties of monomer and polymer are reported. The…

chemistry.chemical_classificationchemistry.chemical_compoundMonomerPolymerizationChemistryTacticityPolymer chemistryCationic polymerizationPolymerDispersion (chemistry)Dispersion curveOptical rotatory dispersionDie Makromolekulare Chemie
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Comment on "Dynamics and properties of waves in a modified Noguchi electrical transmission line"

2016

A recent paper [Phys. Rev. E 91, 022925 (2015)PRESCM1539-375510.1103/PhysRevE.91.022925] presents the derivation of the nonlinear equation modeling envelope waves in a specific case of band passed filter discrete nonlinear electrical transmission line (NLTL), called "A modified Noguchi electrical transmission line" according to the authors. Using the reductive perturbation approach in the semidiscrete approximation, they showed that the modulated waves propagating in this NLTL are described by the ordinary nonlinear Schrodinger (NLS) equation. On the basis of their results, the authors claimed that all previous works on the band passed filter NLTL, which considered the vanishing of the dc c…

PhysicsMathematical analysisPerturbation (astronomy)Dispersion curve01 natural sciences010305 fluids & plasmassymbols.namesakeNonlinear systemElectric power transmission[NLIN.NLIN-PS]Nonlinear Sciences [physics]/Pattern Formation and Solitons [nlin.PS]0103 physical sciencessymbols[ NLIN.NLIN-PS ] Nonlinear Sciences [physics]/Pattern Formation and Solitons [nlin.PS]010306 general physicsSchrödinger's catEnvelope (waves)DC biasVoltage
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Strong coupling between surface plasmon polaritons and Sulforhodamine 101 dye

2011

We demonstrate a strong coupling between surface plasmon polaritons and Sulforhodamine 101 dye molecules. Dispersion curves for surface plasmon polaritons on samples with a thin layer of silver covered with Sulforhodamine 101 molecules embedded in SU-8 polymer are obtained experimentally by reflectometry measurements and compared to the dispersion of samples without molecules. Clear Rabi splittings, with energies up to 360 and 190 meV, are observed at the positions of the dye absorption maxima. The split energies are dependent on the number of Sulforhodamine 101 molecules involved in the coupling process. Transfer matrix and coupled oscillator methods are used to model the studied multilaye…

Materials scienceNanochemistryPhysics::Opticsdispersion curve02 engineering and technology01 natural sciencesMolecular physicschemistry.chemical_compoundOpticsMaterials Science(all)Dispersion relationstrong coupling0103 physical sciencesDispersion (optics)General Materials Science010306 general physicsReflectometryRabi splittingNano Expressbusiness.industrySulforhodamine 101Surface plasmon021001 nanoscience & nanotechnologySulforhodamine 101Condensed Matter PhysicsSurface plasmon polariton3. Good healthchemistrysurface plasmon polariton0210 nano-technologybusinessLocalized surface plasmonNanoscale Research Letters
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