Search results for "Ayer"

showing 10 items of 2767 documents

2021

Atomic layer deposition (ALD) technology has unlocked new ways of manipulating the growth of inorganic materials. The fine control at the atomic level allowed by ALD technology creates the perfect conditions for the inclusion of new cationic or anionic elements of the already-known materials. Consequently, novel material characteristics may arise with new functions for applications. This is especially relevant for inorganic luminescent materials where slight changes in the vicinity of the luminescent centers may originate new emission properties. Here, we studied the luminescent properties of CaS:Eu by introducing europium with oxygen ions by ALD, resulting in a novel CaS:EuO thin film. We …

010302 applied physicsPhotoluminescenceMaterials sciencebusiness.industryDopingchemistry.chemical_elementPhosphor02 engineering and technology021001 nanoscience & nanotechnology7. Clean energy01 natural sciencesIonAtomic layer depositionchemistry13. Climate action0103 physical sciencesOptoelectronicsGeneral Materials ScienceThin film0210 nano-technologybusinessLuminescenceEuropiumMaterials
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Electromagnetically induced switching of ferroelectric thin films

2007

We analyze the interaction of an electromagnetic spike (one cycle) with a thin layer of ferroelectric medium with two equilibrium states. The model is the set of Maxwell equations coupled to the undamped Landau-Khalatnikov equation, where we do not assume slowly varying envelopes. From linear-scattering theory, we show that low-amplitude pulses can be completely reflected by the medium. Large-amplitude pulses can switch the ferroelectric. Using numerical simulations and analysis, we study this switching for long and short pulses, estimate the switching times, and provide useful information for experiments.

010302 applied physicsPhysicsCondensed matter physicsScatteringNumerical analysisThin layerFOS: Physical sciencesPattern Formation and Solitons (nlin.PS)Condensed Matter Physics01 natural sciencesFerroelectricityNonlinear Sciences - Pattern Formation and SolitonsElectronic Optical and Magnetic Materialssymbols.namesakeAmplitudeMaxwell's equations0103 physical sciencessymbolsFerroelectric thin filmsThin film010306 general physicsComputingMilieux_MISCELLANEOUS
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Calculation of the electrostatic field in a dielectric-loaded waveguide due to an arbitrary charge distribution on the dielectric layer

2016

The goal of this paper is to study the electrostatic field due to an arbitrary charge distribution on a dielectric layer in a dielectric-loaded rectangular waveguide. In order to obtain this electrostatic field, the potential due to a point charge on the dielectric layer is solved in advance. The high computational complexity of this problem requires the use of different numerical integration techniques (e.g., Filon, Gauss-Kronrod, Lobatto, …) and interpolation methods. Using the principle of superposition, the potential due to an arbitrary charge distribution on a dielectric layer is obtained by adding the individual contribution of each point charge. Finally, a numerical differentiation o…

010302 applied physicsPhysicsMultipactor effectPoint particlePhysics::OpticsCharge density020206 networking & telecommunications02 engineering and technologyDielectricElectrostatics01 natural sciencesComputational physicsElectric field0103 physical sciences0202 electrical engineering electronic engineering information engineeringDouble layer potentialElectric potential2016 Progress in Electromagnetic Research Symposium (PIERS)
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Hydrogen plasma induced photoelectron emission from low work function cesium covered metal surfaces

2017

Experimental results of hydrogen plasma induced photoelectron emission from cesium covered metal surfaces under ion source relevant conditions are reported. The transient photoelectron current during the Cs deposition process is measured from Mo, Al, Cu, Ta, Y, Ni, and stainless steel (SAE 304) surfaces. The photoelectron emission is 2–3.5 times higher at optimal Cs layer thickness in comparison to the clean substrate material. Emission from the thick layer of Cs is found to be 60%–80% lower than the emission from clean substrates. peerReviewed

010302 applied physicsPhysicsta114HydrogenTantalumAnalytical chemistrytransitionchemistry.chemical_elementSubstrate (electronics)plasmasCondensed Matter Physics01 natural sciencesIon sourcework functions010305 fluids & plasmasion sourceschemistryAluminiumCaesium0103 physical sciencesWork functionLayer (electronics)photoemissionPhysics of Plasmas
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Acoustic Wave Behavior in a Specimen Containing an Air Void Defect

2019

The PEA method is the most used technique for the space charge measurements. As is well known, this method uses pressure waves to detect the charges accumulated in solid dielectrics. Based on its working principle, the generated acoustic waves travel within PEA cell and the specimen under test in order to be finally detected by the piezoelectric sensor. For a multilayer specimen and, in particular, in case of different materials that make up the specimen, the acoustic wave reflection is inevitable. Considering that, in several cases, the reflected waves could be detected by the piezoelectric sensor before than the main signals, the PEA cell output profile could results distorted. Based on t…

010302 applied physicsVoid (astronomy)Materials sciencePiezoelectric sensorPEA method020209 energyAcousticsReflected wavesair void02 engineering and technologyAcoustic waveDielectric01 natural sciencesSpace chargeSpace chargeKaptonreflection phenomenonSettore ING-IND/31 - ElettrotecnicaMultilayer specimen0103 physical sciences0202 electrical engineering electronic engineering information engineering
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Atomic layer deposition of aluminum oxide on modified steel substrates

2016

Abstract Al 2 O 3 thin films were grown by atomic layer deposition to thicknesses ranging from 10 to 90 nm on flexible steel substrates at 300 °C using Al(CH 3 ) 3 and H 2 O as precursors. The films grown to thicknesses 9–90 nm covered the rough steel surfaces uniformly, allowing reliable evaluation of their dielectric permittivity and electrical current densities with appreciable contact yield. Mechanical behavior of the coatings was evaluated by nanoindentation. The maximum hardness values of the Al 2 O 3 films on steel reached 12 GPa and the elastic modulus exceeded 280 GPa.

010302 applied physicsYield (engineering)Materials scienceMetallurgy02 engineering and technologySurfaces and InterfacesGeneral ChemistryChemical vapor depositionNanoindentation021001 nanoscience & nanotechnologyCondensed Matter Physics01 natural sciencesSurfaces Coatings and FilmsAtomic layer deposition0103 physical sciencesMaterials ChemistrySurface modificationThin filmComposite material0210 nano-technologyElastic modulusAluminum oxideSurface and Coatings Technology
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Very Long Term Stabilization of a 2D Magnet down to the Monolayer for Device Integration

2020

2D materials have recently demonstrated a strong potential for spintronic applications. This has been further reinforced by the discovery of ferromagnetic 2D layers. Nevertheless, the fragility of ...

010302 applied physics[PHYS]Physics [physics]Materials scienceSpintronicsNanotechnology02 engineering and technology021001 nanoscience & nanotechnology01 natural sciencesElectronic Optical and Magnetic MaterialsTerm (time)FragilityFerromagnetismMagnet0103 physical sciencesMonolayerMaterials ChemistryElectrochemistry[PHYS.COND]Physics [physics]/Condensed Matter [cond-mat]0210 nano-technologyComputingMilieux_MISCELLANEOUS
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A Local Study of the Transport Mechanisms in MoS2 Layers for Magnetic Tunnel Junctions

2018

MoS2-based vertical spintronic devices have attracted an increasing interest thanks to theoretical predictions of large magnetoresistance signals. However, experimental performances are still far from expectations. Here, we carry out the local electrical characterization of thin MoS2 flakes in a Co/Al2O3/MoS2 structure through conductive tip AFM measurements. We show that thin MoS2 presents a metallic behavior with a strong lateral transport contribution that hinders the direct tunnelling through thin layers. Indeed, no resistance dependence is observed with the flake thickness. These findings reveal a spin depolarization source in the MoS2-based spin valves, thus pointing to possible solut…

010302 applied physics[PHYS]Physics [physics]Thin layersMaterials scienceCondensed matter physicsMagnetoresistanceSpintronics02 engineering and technology021001 nanoscience & nanotechnology01 natural sciencesLocal studyCharacterization (materials science)0103 physical sciencesGeneral Materials Science[PHYS.COND]Physics [physics]/Condensed Matter [cond-mat]0210 nano-technologyElectrical conductorQuantum tunnellingComputingMilieux_MISCELLANEOUSSpin-½
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The impact of temperature on electrical properties of polymer-based nanocomposites

2020

This work was supported by National Research Foundation of Ukraine, project 2020.02/0217. IK would also like to thank VIAA, State Education Development Agency for Latvian state fellowship. HK would like to thank Ministry of Education and Science of Ukraine, project for young researchers No. 0119U100435. In addition, SP and AAP are thankful for financial support from Latvian Council of Science via grant lzp-2018/2-0083. HK and AAP are grateful for the support from the COST Action CA17126.

010302 applied physicschemistry.chemical_classificationRange (particle radiation)Materials scienceThin layersNanocompositePhysics and Astronomy (miscellaneous)General Physics and Astronomymulti-walled carbon nanotubesPolymerCarbon nanotube7. Clean energy01 natural scienceslaw.inventionpolymer based nanocompositeschemistrylaw0103 physical sciences:NATURAL SCIENCES:Physics [Research Subject Categories]Composite material010306 general physicslow-temperature hysteresisLow Temperature Physics
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Towards Atomically Precise Supported Catalysts from Monolayer‐Protected Clusters: The Critical Role of the Support

2020

Abstract Controlling the size and uniformity of metal clusters with atomic precision is essential for fine‐tuning their catalytic properties, however for clusters deposited on supports, such control is challenging. Here, by combining X‐ray absorption spectroscopy and density functional theory calculations, it is shown that supports play a crucial role in the evolution of monolayer‐protected clusters into catalysts. Based on the acidic nature of the support, cluster‐support interactions lead either to fragmentation of the cluster into isolated Au–ligand species or ligand‐free metallic Au0 clusters. On Lewis acidic supports that bind metals strongly, the latter transformation occurs while pre…

010402 general chemistry01 natural sciencesgold clustersNanomaterials | Hot PaperCatalysiskultaCatalysisNanomaterialsmonolayer-protected clustersMetalklusteritnoncovalent interactionskatalyytitMonolayerCluster (physics)Non-covalent interactionschemistry.chemical_classificationX-ray absorption spectroscopyFull Paper010405 organic chemistryOrganic ChemistryX-ray absorption spectroscopyGeneral ChemistryFull Papersgold0104 chemical sciencesX-Ray Absorption SpectroscopychemistryChemical physicsvisual_artdensity functional calculationsvisual_art.visual_art_mediumDensity functional theorynanohiukkasetcluster-support interactionChemistry (Weinheim an Der Bergstrasse, Germany)
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