0000000000177837

AUTHOR

Artur Medvid

0000-0002-1727-0280

showing 8 related works from this author

A Method of Conversion of some Coefficient Inverse Parabolic Problems to a Unified Type of Integral-Differential Equation

2011

Coefficient inverse problems are reformulated to a unified integral differential equation. The presented method of conversion of the considered inverse problems to a unified Volterra integral-differential equation gives an opportunity to distribute the acquired results also to analogous inverse problems for non-linear parabolic equations of different types.

symbols.namesakeInverse scattering transformDifferential equationMathematical analysisInverse scattering problemGeneral EngineeringsymbolsInverseInverse problemIntegral equationVolterra integral equationParabolic partial differential equationMathematicsAdvanced Materials Research
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Photo-electrical and transport properties of hydrothermal ZnO

2016

We performed the studies of optical, photoelectric, and transport properties of a hydrothermal bulk n-type ZnO crystal by using the contactless optical techniques: photoluminescence, light-induced transient grating, and differential reflectivity. Optical studies revealed bound exciton and defect-related transitions between the donor states (at ∼60 meV and ∼240 meV below the conduction band) and the deep acceptor states (at 0.52 eV above the valence band). The acceptor state was ascribed to VZn, and its thermal activation energy of 0.43 eV was determined. A low value of carrier diffusion coefficient (∼0.1 cm2/s) at low excitations and temperatures up to 800 K was attributed to impact the rec…

010302 applied physicsElectron mobilityPhotoluminescenceChemistryBand gapExcitonWide-bandgap semiconductorGeneral Physics and Astronomy02 engineering and technologyCarrier lifetime021001 nanoscience & nanotechnology01 natural sciencesAcceptorMolecular physicsCrystalCondensed Matter::Materials Science0103 physical sciencesAtomic physics0210 nano-technologyJournal of Applied Physics
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Hardening of Steel Perforated Tape by Nd:YAG Laser

2016

One of the directions of application of the perforated metal material is their use as cutting elements in the production of processing tools. In this case it is necessary to carry out hardening of cutting surfaces to increase their hardness. One of the methods of hardening metals could be laser treatment. Therefore, the present work is a study of the effect of Nd:YAG laser radiation on the microstructure and hardness of fragments formed from steel perforated tape. Different laser scan speeds (doses) were used in the experiments. The results have shown that the increase the microhardness of 30-40% after the laser treatment of steel perforated tape in the surface layer in a depth range up to …

Materials scienceLaser02 engineering and technology01 natural sciencesIndentation hardnesslaw.inventionPerforated metallaw0103 physical sciences:NATURAL SCIENCES:Physics [Research Subject Categories]General Materials ScienceSurface layerComposite materialPerforated Tape010302 applied physicsMechanical EngineeringMetallurgyNanoindentation021001 nanoscience & nanotechnologyMicrostructureLaser6. Clean waterSteelMechanics of MaterialsNd:YAG laserHardeningHardening (metallurgy)0210 nano-technologyKey Engineering Materials
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Electric breakdown of dielectric thin films for high-voltage display applications

2016

Smectic A liquid crystal is one of the most promising material for smart glass application due to infinite bistability and low haze at clear state. Voltage is needed to switch from scattering to transparent and it is likely for dielectric breakdown to occur. In order to reduce the probability of dielectric breakdown to occur, a dielectric insulating coating is usually employed. In this work we have compared electrical and optical properties of SiO2 thin films with thickness up to 500 nm coated by flexographic printing and reactive magnetron sputtering. IV characteristics and dielectric breakdown values show sputtered coatings to have higher dielectric strength. For sputtered coatings with t…

Materials scienceOpticsOptical coatingDielectric strengthbusiness.industryGate dielectricElectrical breakdownOptoelectronicsHigh voltageDielectricThin filmSputter depositionbusinessSPIE Proceedings
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Black carbon-doped TiO2 films: Synthesis, characterization and photocatalysis

2019

This research is funded by the European Social Fund according to the activity ‘Improvement of researchers’ qualification by implementing world-class R&D projects’ of Measure No. 09.3.3-LMT- K-712, project „Investigation of the application of TiO2 and ZnO for the visible light assisted photocatalytical disinfection of the biologically contaminated water“ (09.3.3-LMT-K-712-01-0175). The authors express gratitude for the S. Tuckute, M. Urbonavicius, G. Laukaitis and K. Bockute for their valuable input in current work. © 2019. This work is licensed under a CC BY-NC-ND 4.0 license.

AnataseScanning electron microscopeGeneral Chemical EngineeringAnalytical chemistryGeneral Physics and AstronomyCarbon-doped TiO202 engineering and technology010402 general chemistry01 natural sciences7. Clean energyX-ray photoelectron spectroscopyBand gap:NATURAL SCIENCES:Physics [Research Subject Categories]PhotocatalysisVisible lightChemistryBlack TiO2General ChemistryCarbon blackSputter deposition021001 nanoscience & nanotechnology0104 chemical sciencesAmorphous solidCrystallite0210 nano-technologyMagnetron sputteringVisible spectrumJournal of Photochemistry and Photobiology A: Chemistry
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Dielectric breakdown of fast switching LCD shutters

2017

Fast liquid crystal optical shutters due to fast switching, vibrationless control and optical properties have found various applications: substitutes for mechanical shutters, 3D active shutter glasses, 3D volumetric displays and more. Switching speed depends not only on properties of liquid crystal, but also on applied electric field intensity. Applied field in the shutters can exceed >10 V/micron which may lead to dielectric breakdown. Therefore, a dielectric thin film is needed between transparent conductive electrodes in order to reduce breakdown probability. In this work we have compared electrical and optical properties of liquid crystal displays with dielectric thin films with thickne…

010302 applied physicsMaterials scienceLiquid-crystal displayDielectric strengthbusiness.industryHigh voltageSputter deposition01 natural scienceslaw.invention010309 opticsSwitching timeOpticsOptical coatinglawLiquid crystal0103 physical sciencesOptoelectronicsThin filmbusinessSPIE Proceedings
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Low-K factor of SiO2 layer on Si irradiated by YAG:Nd laser

2007

Abstract The change of optical and electrical properties of SiO2 layer on Si single crystal exposed to YAG:Nd laser radiation has been found experimentally. The second harmonic of YAG:Nd laser was used as a source of light. Before irradiation the SiO2 layer with thickness 0.75 μm had red color in reflecting light due to the interference. After irradiation with the laser with intensity of more than 3.5 MW/cm2 red color changed to yellow. However, samples with thickness 0.21 μm did not change color after irradiation. We explain such peculiarities of optical properties by change of optical path. Capacity (C) measurements of SiO2 layer with thickness 0.21 μm by the method of capacity–voltage ch…

Materials scienceAnalytical chemistryRadiationCondensed Matter PhysicsLaserIndentation hardnessElectronic Optical and Magnetic Materialslaw.inventionOptical pathlawMaterials ChemistryCeramics and CompositesSurface roughnessIrradiationLayer (electronics)Single crystalJournal of Non-Crystalline Solids
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Modeling of surface structure formation after laser irradiation

2011

The Stefan problem in a semi-infinite media under laser irradiation is considered. It is related to the melting and solidification processes, resulting in certain surface structure after the solidification. A simple model, as well as a more sophisticated one is proposed to describe this process. The latter model allows us to calculate the surface profile by solving a system of two nonlinear differential equations, if the shape of the solid-liquid interface is known. It has to be found as a solution of two-phases Stefan problem. The results of example calculations by the fourth-order Runge-Kutta method are presented, assuming that the solid-liquid interface has a parabolic shape. The calcula…

Surface (mathematics)Chemistrybusiness.industryGeneral EngineeringStefan problemProcess (computing)MechanicsLaserNonlinear differential equationslaw.inventionOpticslawSimple (abstract algebra)Surface structureIrradiationbusiness
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