Search results for "trap"

showing 10 items of 2144 documents

'Cold' crystallization in nanostructurized 80GeSe2-20Ga2Se3 glass

2015

International audience; 'Cold' crystallization in 80GeSe 2-20Ga 2 Se 3 chalcogenide glass nanostructurized due to thermal annealing at 380°C for 10, 25, 50, 80, and 100 h are probed with X-ray diffraction, atomic force, and scanning electron microscopy, as well as positron annihilation spectroscopy performed in positron annihilation lifetime and Doppler broadening of annihilation line modes. It is shown that changes in defect-related component in the fit of experimental positron lifetime spectra for nanocrystallized glasses testify in favor of structural fragmentation of larger free-volume entities into smaller ones. Nanocrystallites of Ga 2 Se 3 and/or GeGa 4 Se 8 phases and prevalent GeSe…

Materials scienceNano ExpressAnnealing (metallurgy)Scanning electron microscopePositron annihilationNucleationChalcogenide glass[CHIM.MATE]Chemical Sciences/Material chemistryCondensed Matter PhysicsMolecular physicslaw.inventionPositron annihilation spectroscopyAnnealingChalcogenide glass Crystallization Annealing Positron annihilation TrappingCrystallographyPositronMaterials Science(all)lawChalcogenide glassTrappingGeneral Materials ScienceCrystallizationCrystallizationDoppler broadeningNanoscale Research Letters

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Dawning of the N=32 shell closure seen through precision mass measurements of neutron-rich titanium isotopes

2018

A precision mass investigation of the neutron-rich titanium isotopes 51 − 55 Ti was performed at TRIUMF’s Ion Trap for Atomic and Nuclear science (TITAN). The range of the measurements covers the N = 32 shell closure, and the overall uncertainties of the 52 − 55 Ti mass values were significantly reduced. Our results conclusively establish the existence of the weak shell effect at N = 32 , narrowing down the abrupt onset of this shell closure. Our data were compared with state-of-the-art ab initio shell model calculations which, despite very successfully describing where the N = 32 shell gap is strong, overpredict its strength and extent in titanium and heavier isotones. These measurements a…

Materials scienceNuclear Theorynucl-thNuclear TheoryAb initioGeneral Physics and Astronomychemistry.chemical_elementFOS: Physical sciences[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]Mass spectrometrynucl-ex01 natural sciencesNuclear Theory (nucl-th)symbols.namesake0103 physical sciencesPhysics::Atomic and Molecular ClustersNeutron[ PHYS.NEXP ] Physics [physics]/Nuclear Experiment [nucl-ex]Nuclear Experiment (nucl-ex)010306 general physicsNuclear ExperimentNuclear ExperimentIsotope010308 nuclear & particles physicsStarke Wechselwirkung und exotische Kerne – Abteilung BlaumPenning trapchemistry13. Climate actionsymbolsIon trapAtomic physicsTitan (rocket family)Titanium

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Integrated plasmonic nanotweezers for nanoparticle manipulation.

2016

We numerically demonstrate that short gold nanoparticle chains coupled to traditional SOI waveguides allow conceiving surface plasmon-based nanotweezers. This configuration provides for jumpless control of the trapping position of a nano-object as a function of the excitation wavelength, allowing for linear repositioning. This novel feature can be captivating for the conception of compact integrated optomechanical nanoactuators.

Materials scienceOptical TweezersOptical forcePhysics::OpticsSilicon on insulatorNanoparticleNanotechnology02 engineering and technology01 natural sciences010309 opticsOptics0103 physical sciencesPlasmonbusiness.industrySurface plasmon021001 nanoscience & nanotechnologySurface plasmon polaritonAtomic and Molecular Physics and OpticsOptical tweezersOptoelectronicsPlasmonicsOptical Tweezers; Plasmonics; Trapped ParticlesTrapped Particles0210 nano-technologybusinessRefractive indexOptics letters

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3D photonic crystal intermediate reflectors for enhanced light-trapping in tandem solar cells

2012

The concept of 3D photonic crystals embedded in tandem solar cells as intermediate reflective layers is investigated. Numerical as well as experimental results will be presented.

Materials scienceOpticsSolar cell efficiencyTandembusiness.industryPhysics::OpticsOptoelectronicsThin film solar cellMultijunction photovoltaic cellTrappingbusinessYablonovitePhotonic crystal

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The boron effect on low temperature luminescence of SrAl2O4:Eu, Dy

2020

V.V. acknowledges the financial support of ERDF PostDoc project No. 1.1.1.2/VIAA/3/19/440 (University of Latvia Institute of Solid State Physics, Latvia) and K.S., I.B., A.Z., D.M. and K.L. acknowledge the financial support of ERDF, European-Union Project No. 1.1.1.1/16/A/182 (University of Latvia Institute of Solid State Physics, Latvia).

Materials sciencePersistent luminescenceAnalytical chemistrychemistry.chemical_element02 engineering and technologyTrapping7. Clean energy01 natural sciencesPersistent luminescence0103 physical sciencesMaterials Chemistry:NATURAL SCIENCES:Physics [Research Subject Categories]BoronQuantum tunnelling010302 applied physicsLong afterglowProcess Chemistry and Technology021001 nanoscience & nanotechnologySurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsAfterglowBoron concentrationchemistryCeramics and Composites0210 nano-technologyLuminescenceIntensity (heat transfer)

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The search for defects in undoped SrAl2O4 material

2019

This research project was supported financially by ERDF Project No: Nr.1.1.1.1/16/A/182 .

Materials sciencePersistent luminescenceCharge Carrier trappingPhosphor02 engineering and technology010402 general chemistry01 natural sciencesInorganic ChemistryPersistent luminescence:NATURAL SCIENCES:Physics [Research Subject Categories]Emission spectrumIrradiationElectrical and Electronic EngineeringPhysical and Theoretical ChemistrySpectroscopyCondensed matter physicsDopantOrganic ChemistryDoping021001 nanoscience & nanotechnologyAtomic and Molecular Physics and Optics0104 chemical sciencesElectronic Optical and Magnetic MaterialsAfterglowUndoped strontium aluminate0210 nano-technologyLuminescenceOptical Materials

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Photoelectric response of localized states in silica glass

2019

This work was supported by the Latvian Science Council Grant No lzp-2018/1-0289.

Materials sciencePhotoconductivityFOS: Physical sciencesApplied Physics (physics.app-ph)02 engineering and technologyElectronLocalized states01 natural sciencesElectric fieldDember effect0103 physical sciences:NATURAL SCIENCES:Physics [Research Subject Categories]Materials ChemistrySpace charge limited current010302 applied physicsCondensed Matter - Materials ScienceMaterials Science (cond-mat.mtrl-sci)SilicaPhysics - Applied PhysicsPhotoelectric effect021001 nanoscience & nanotechnologyCondensed Matter PhysicsPenning trapSpace chargeElectronic Optical and Magnetic MaterialsPhotoexcitationDember effectCeramics and CompositesCharge carrierAtomic physics0210 nano-technologyJournal of Non-Crystalline Solids

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Photoconductive properties of Bi2S3nanowires

2015

The photoconductive properties of Bi2S3 nanowires synthesized inside anodized alumina (AAO) membrane have been characterized as a function of illuminating photon energy between the wavelengths of 500 to 900 nm and at constant illumination intensity of 1–4 μW·cm−2. Photoconductivity spectra, photocurrent values, photocurrent onset/decay times of individual Bi2S3 nanowires liberated from the AAO membrane were determined and compared with those of arrays of as-produced Bi2S3 nanowires templated inside pores of AAO membrane. The alumina membrane was found to significantly influence the photoconductive properties of the AAO-hosted Bi2S3 nanowires, when compared to liberated from the AAO membrane…

Materials sciencePhotoconductivityPHOTODETECTORSThin filmsPhotoconductivity spectrumAluminaNanowireGeneral Physics and AstronomyNanotechnologySemiconductor growth02 engineering and technology010402 general chemistryNanofabrication01 natural sciencesSemiconductor materialsTHIN-FILMSThin filmONE-DIMENSIONAL NANOSTRUCTURESArraysPhotocurrentOne-dimensional nanostructuresMembranesNanowire surfaceNanowiresbusiness.industryAnodizingPhotoconductivityPhotodetectors021001 nanoscience & nanotechnologyCharge carrier trappingARRAYS0104 chemical sciencesMembraneNanolithographyIllumination intensityAnodized aluminaPhotoconductive propertiesSemiconductor quantum wiresOptoelectronicsAlumina membranesCharge carrierElectron trapsPhoton energy0210 nano-technologybusinessBismuth compoundsJournal of Applied Physics

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Incorporation of potassium halides in the mechanosynthesis of inorganic perovskites: feasibility and limitations of ion-replacement and trap passivat…

2018

Potassium halides (KX; X = I, Br, or Cl) were incorporated as partial replacements of CsBr in the mechanosynthesis of CsPbBr3. This led to partial substitution of both monovalent ions forming mixed Cs1−xKxPbBr3−yXy perovskites. Longer photoluminescence lifetimes were also observed, possibly linked to the formation of a non-perovskite KPb2X5 passivating layer.

Materials sciencePhotoluminescencePassivationGeneral Chemical EngineeringPotassiumInorganic chemistryHalidechemistry.chemical_element02 engineering and technologyGeneral Chemistry010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical sciencesIonTrap (computing)chemistryMechanosynthesis0210 nano-technologyLayer (electronics)MaterialsFisicoquímicaRSC Advances

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Luminescence of localized states in oxidized and fluorinated silica glass

2019

This work was supported by the Latvian Science Council Grant No lzp-2018/1-0289.

Materials sciencePhotoluminescenceRecombination luminescenceTime resolved photoluminescencePhysics::OpticsFOS: Physical sciences02 engineering and technologyLocalized statesPhotochemistryExcimer01 natural sciencesCondensed Matter::Disordered Systems and Neural Networkslaw.inventionlaw0103 physical sciencesMaterials Chemistry:NATURAL SCIENCES:Physics [Research Subject Categories]Pure silica glass010302 applied physicsCondensed Matter - Materials ScienceSelf-trapped holeMaterials Science (cond-mat.mtrl-sci)021001 nanoscience & nanotechnologyCondensed Matter PhysicsLaserElectronic Optical and Magnetic MaterialsAtomic electron transitionAttenuation coefficientCeramics and CompositesCharge carrier0210 nano-technologyLuminescenceExcitationOxygen deficient centersExcimer lasers

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