Search results for "Applied Physic"

showing 10 items of 1228 documents

Flying Laser Spot Thermography technique for the NDE of Fibre Metal Laminates disbonds

2017

Abstract The present work investigates the features of an active Infrared-NDT Thermography technique derived from a Flying Laser Spot set-up for the analysis of interlaminar disbonds in layered structures in general and Fibre Metal Laminates in particular. The presented technique uses a laser-spot heat source, which moves at a constant speed, raster scanning the object surface. Interlaminar defects parallel to the surfaces act as barriers towards through-the-thickness heat diffusion. This produces some modifications over the surface thermal field which are well identified in the Standard Deviation calculated over a Reference Area following the heat source. The mechanisms leading to such def…

Work (thermodynamics)Materials scienceNon-destructive testingLaserCeramics and Composite02 engineering and technology01 natural scienceslaw.inventionSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineLayered structurelawNondestructive testing0103 physical sciencesThermalFinite Element Analysis (FEA)Composite materialCivil and Structural Engineering010302 applied physicsbusiness.industryDelamination021001 nanoscience & nanotechnologyLaserFinite element methodIR thermographyDelaminationCeramics and CompositesHeat equation0210 nano-technologyRaster scanbusiness
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Different Space Charge Behavior of Materials Used in AC and DC Systems

2017

The aim of the present work is to evaluate the behavior, from the space charge accumulation phenomenon point of view, of three different XLPE specimens used as insulation materials in high voltage systems. Considering that under DC stress the charge accumulation is more relevant as compared to the AC case, in the specimens for DC applications additives are typically added. In this work, three different specimens are analyzed. One is a free additive sample used conventionally under AC stress and two others include different additives that are used under DC stress. In order to measure the space charge accumulation, the Pulsed Electro Acoustic (PEA) method has been employed. For each sample, t…

Work (thermodynamics)Materials sciencePEA method020209 energy02 engineering and technology01 natural sciencesSpace chargelaw.inventionStress (mechanics)lawElectric field0103 physical sciences0202 electrical engineering electronic engineering information engineeringPoint (geometry)AdditiveElectrical and Electronic EngineeringComposite material010302 applied physicsElectronic Optical and Magnetic MaterialCharge (physics)High voltageDC streSpace chargeCathodeSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaSettore ING-IND/31 - Elettrotecnica2017 IEEE Conference on Electrical Insulation and Dielectric Phenomenon (CEIDP)
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Subamorphous thermal conductivity of crystalline half-Heusler superlattices

2021

The quest to improve the thermoelectric figure of merit has mainly followed the roadmap of lowering the thermal conductivity while keeping unaltered the power factor of the material. Ideally an electron-crystal phonon-glass system is desired. In this work, we report an extraordinary reduction of the cross-plane thermal conductivity in crystalline (TiNiSn):(HfNiSn) half-Heusler superlattices (SLs). We create SLs with thermal conductivities below the effective amorphous limit, which is kept in a large temperature range (120–300 K). We measured thermal conductivity at room temperature values as low as 0.75 W m−1 K−1, the lowest thermal conductivity value reported so far for half-Heusler compou…

Work (thermodynamics)Materials scienceSuperlatticesSuperlatticeFOS: Physical sciences02 engineering and technology01 natural sciencesThermal conductivity0103 physical sciencesThermalGeneral Materials ScienceDeposition (law)010302 applied physicsCondensed Matter - Materials ScienceCondensed matter physicsUltralow thermal conductivityMaterials Science (cond-mat.mtrl-sci)Atmospheric temperature range021001 nanoscience & nanotechnologyCondensed Matter PhysicsAtomic and Molecular Physics and OpticsAmorphous solidThermoelectric generatorAmorphous limit of thermal conductivityMechanics of Materials0210 nano-technology
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Connections Between Topology and Macroscopic Mechanical Properties of Three-Dimensional Open-Pore Materials

2018

This work addresses a number of fundamental questions regarding the topological description of materials characterized by a highly porous three-dimensional structure with bending as the major deformation mechanism. Highly efficient finite-element beam models were used for generating data on the mechanical behavior of structures with different topologies, ranging from highly coordinated bcc to Gibson–Ashby structures. Random cutting enabled a continuous modification of average coordination numbers ranging from the maximum connectivity to the percolation-cluster transition of the 3D network. The computed macroscopic mechanical properties–Young's modulus, yield strength, and Poisson's ratio–co…

Work (thermodynamics)Materials sciencetopologyMaterials Science (miscellaneous)Coordination numberModulus02 engineering and technologyBendingPoisson distributionTopologystructure–property relationship01 natural scienceslcsh:Technologysymbols.namesakeApproximation error0103 physical sciencesTechnik [600]Topology (chemistry)ddc:620.11010302 applied physicslcsh:T600data mining021001 nanoscience & nanotechnologyelastic-plastic deformation behaviormachine learningopen-pore materialssymbols0210 nano-technologyReduction (mathematics)ddc:600Frontiers in Materials
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2D slab models of TiO2 nanotubes for simulation of water adsorption: Validation over a diameter range

2020

Financial support provided by Scientific Research Project for Students and Young Researchers Nr. SJZ/2019/2 realized at the Institute of Solid State Physics, University of Latvia is greatly acknowledged. Institute of Solid State Physics, University of Latvia as the Center of Excellence has received funding from the European Union’s Horizon 2020 Framework Programme H2020-WIDESPREAD-01-2016-2017-TeamingPhase2 under Grant Agreement No. 739508, project CAMART 2 .

Work (thermodynamics)NanotubeSlab modelMaterials scienceWater adsorptionGeneral Physics and Astronomy02 engineering and technology01 natural sciencesDFTNanomaterialsCondensed Matter::Materials ScienceAdsorptionLattice constant0103 physical sciences:NATURAL SCIENCES:Physics [Research Subject Categories]TiO2Water splitting010302 applied physicsNanotubes021001 nanoscience & nanotechnologylcsh:QC1-999Chemical physicsSlabWater splitting0210 nano-technologylcsh:PhysicsPhotocatalytic water splitting
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Amorphous p-Type Conducting Zn-x Ir Oxide (x > 0.13) Thin Films Deposited by Reactive Magnetron Cosputtering

2021

Zinc-iridium oxide (Zn-Ir-O) thin films have been demonstrated as a p-type conducting material. However, the stability of p-type conductivity with respect to chemical composition or temperature is still unclear. In this study we discuss the local atomic structure and the electrical properties of Zn-Ir-O films in the large Ir concentration range. The films are deposited by reactive DC magnetron co-sputtering at two different substrate temperatures-without intentional heating and at 300 {\deg}C. Extended X-ray absorption fine structure (EXAFS) analysis reveals that strongly disordered ZnO4 tetrahedra are the main Zn complexes in Zn-Ir-O films with up to 67.4 at% Ir. As the Ir concentration in…

X-ray absorption spectroscopyReactive magnetronCondensed Matter - Materials ScienceMaterials scienceOxideAnalytical chemistryMaterials Science (cond-mat.mtrl-sci)FOS: Physical sciencesPhysics - Applied PhysicsApplied Physics (physics.app-ph)Condensed Matter PhysicsElectronic Optical and Magnetic MaterialsAmorphous solidchemistry.chemical_compoundchemistryThin film
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Nanocrystalline CaWO$_4$ and ZnWO$_4$ Tungstates for Hybrid Organic-Inorganic X-ray Detectors

2023

The experiment at the DESY PETRA-III synchrotron was performed within project No. I-20211105 EC at the Institute of Solid State Physics, University of Latvia, as the Cen ter of Excellence has received funding from the European Union’s Horizon 2020 Framework Pro gramme H2020-WIDESPREAD-01-2016-2017-TeamingPhase2 under grant agreement No. 739508, project CAMART2.

X-ray sensingCondensed Matter - Materials Sciencehybrid organic–inorganic X-ray detectorsMaterials Science (cond-mat.mtrl-sci)FOS: Physical sciencesGeneral Materials Science600:NATURAL SCIENCES::Physics [Research Subject Categories]Applied Physics (physics.app-ph)Physics - Applied Physicstungstates; hybrid organic–inorganic X-ray detectors; X-ray sensingddc:600tungstates
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Effects of particle clustering on the plastic deformation and damage initiation of particulate reinforced composite utilizing X-ray CT data and finit…

2018

In this paper, a new simulation technique which can include microstructural inhomogeneity of particulate reinforced composites is proposed to accurately study deformation pattern and damage mechanism in these composites. Three dimensional microstructures constructed from XCT images incorporated into finite element modeling codes with minimal approximation to capture the effects of cluster size, local volume fraction of particles in the cluster and the distance between clusters as relevant statistical quantities describing the microstructural inhomogeneity of particulate reinforced composites. A quantitative parameter as degree of clustering is defined to consider particle clustering effect.…

Yield (engineering)Materials scienceNon-destructive testing02 engineering and technologyFlow stressPlasticity01 natural sciencesIndustrial and Manufacturing Engineering0103 physical sciencesCluster (physics)von Mises yield criterionsimulointiComposite materialCluster analysista216Plastic deformationkomposiitit010302 applied physicsta114Mechanical EngineeringFinite element analysis (FEA)021001 nanoscience & nanotechnologymikrorakenteetParticle-reinforcementMechanics of MaterialsVolume fractionCeramics and CompositesDeformation (engineering)0210 nano-technologyCOMPOSITES PART B: ENGINEERING
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Nanoscale X-Ray Imaging of Spin Dynamics in Yttrium Iron Garnet

2019

Time-resolved scanning transmission x-ray microscopy (TR-STXM) has been used for the direct imaging of spin wave dynamics in thin film yttrium iron garnet (YIG) with spatial resolution in the sub 100 nm range. Application of this x-ray transmission technique to single crystalline garnet films was achieved by extracting a lamella (13x5x0.185 $\mathrm{\mu m^3}$) of liquid phase epitaxy grown YIG thin film out of a gadolinium gallium garnet substrate. Spin waves in the sample were measured along the Damon-Eshbach and backward volume directions of propagation at gigahertz frequencies and with wavelengths in a range between 100~nm and 10~$\mathrm{\mu}$m. The results were compared to theoretical …

Yttrium iron garnetFOS: Physical sciencesGeneral Physics and AstronomyLarge scale facilities for research with photons neutrons and ions02 engineering and technologySubstrate (electronics)Epitaxy01 natural scienceschemistry.chemical_compoundCondensed Matter::Materials ScienceSpin waveDispersion relationMesoscale and Nanoscale Physics (cond-mat.mes-hall)0103 physical sciencesThin film010302 applied physicsPhysicsMicroscopyCondensed matter physicsCondensed Matter - Mesoscale and Nanoscale PhysicsGadolinium gallium garnetYIG021001 nanoscience & nanotechnologyWavelengthchemistryMagnonics0210 nano-technology
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Filtering and emission area identification in the Time Resolved Imaging data

2012

Abstract Time Resolved Imaging (TRI) acquisitions allow precise timing analysis of emission spots. Up to date technologies deeply challenge their isolation by hiding the weak ones, under sizing or over sizing visually detectable emission spots and finally by jeopardizing timing resolution. We report on an algorithm based on 1 and 2D signal processing tools which automates the identification of emission sites and optimizes separation between noise and useful signal, even for weak spots surrounding strong emission areas. The application of the algorithm on several sets of data from different types of devices and their results are also discussed.

[ INFO.INFO-TS ] Computer Science [cs]/Signal and Image ProcessingComputer science[INFO.INFO-TS] Computer Science [cs]/Signal and Image Processing[SPI.NANO] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics[ SPI.SIGNAL ] Engineering Sciences [physics]/Signal and Image processing02 engineering and technology01 natural sciencesImaging dataSignal[INFO.INFO-TS]Computer Science [cs]/Signal and Image Processing0103 physical sciences0202 electrical engineering electronic engineering information engineeringIsolation (database systems)[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics[SPI.SIGNAL] Engineering Sciences [physics]/Signal and Image processing010302 applied physicsSignal processingNoise (signal processing)business.industryPhoto EmissionStatic timing analysisPattern recognitionSizingIdentification (information)IC Failure AnalysisImage Thresholding[ SPI.NANO ] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics020201 artificial intelligence & image processingArtificial intelligencebusiness[SPI.SIGNAL]Engineering Sciences [physics]/Signal and Image processing
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