Search results for "Rapping"

showing 10 items of 280 documents

Trapping of 27 bp–8 kbp DNA and immobilization of thiol-modified DNA using dielectrophoresis

2006

Dielectrophoretic trapping of six different DNA fragments, sizes varying from the 27 to 8416 bp, has been studied using confocal microscopy. The effect of the DNA length and the size of the constriction between nanoscale fingertip electrodes on the trapping efficiency have been investigated. Using finite element method simulations in conjunction with the analysis of the experimental data, the polarizabilities of the different size DNA fragments have been calculated for different frequencies. Also the immobilization of trapped hexanethiol- and DTPA-modified 140 nm long DNA to the end of gold nanoelectrodes was experimentally quantified and the observations were supported by density functiona…

Materials scienceFOS: Physical sciencesBioengineeringTrappingCondensed Matter - Soft Condensed Matterlaw.inventionchemistry.chemical_compoundConfocal microscopylawGeneral Materials SciencePhysics - Biological PhysicsElectrical and Electronic EngineeringNanoscopic scalechemistry.chemical_classificationMechanical EngineeringBiomolecules (q-bio.BM)General ChemistryDielectrophoresisCondensed Matter - Other Condensed MatterQuantitative Biology - BiomoleculeschemistryBiological Physics (physics.bio-ph)Mechanics of MaterialsFOS: Biological sciencesElectrodeThiolBiophysicsSoft Condensed Matter (cond-mat.soft)Density functional theoryDNAOther Condensed Matter (cond-mat.other)Nanotechnology

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Electronically induced trapping of hydrogen by impurities in niobium

1984

The binding energies of hydrogen and its isotopes to substitutional impurities Ti, Cr, and V in niobium have been calculated. The hydrogen-metal interaction is based on the effective-medium theory. The wave mechanics of the hydrogenic interstitials are explicity dealt with, and the lattice distortion created by the hydrogen is incorporated through the method of lattice statics. The difference in the electronic structure between impurity and host atoms is shown to be largely responsible for the binding of hydrogen to the impurities. The results are in agreement with recent inelastic neutron scattering experiments. Peer reviewed

Materials scienceHydrogenPhysicsNiobiumchemistry.chemical_elementTrappingNeutron scatteringchemistryImpurityCondensed Matter::SuperconductivityhydrogenPhysics::Atomic PhysicsAtomic physicsniobium

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Determination of the g-Factor of Single Hydrogen-Like Ions by Mode Coupling in a Penning Trap

2004

A method has been developed and applied for the determination of the electronic g-factor of single hydrogen-like ions stored in a Penning trap. The method is based on mode coupling of the ion trapping motions and is conceptionally advantageous as compared to previously used methods. It has been applied to hydrogen-like oxygen 16O7+ and yields a value for the gJ-factor which is in agreement with previously determined values. Experimental requirements and possibilities of the new method are discussed.

Materials scienceHydrogenchemistry.chemical_elementCondensed Matter PhysicsPenning trapOxygenIon trappingAtomic and Molecular Physics and OpticsIonchemistryMode couplingPhysics::Atomic PhysicsIon trapAtomic physicsMathematical PhysicsPhysica Scripta

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Adsorption of CO and N 2 molecules at the surface of solid water. A grand canonical Monte Carlo study

2020

International audience; The adsorption of carbon monoxide and nitrogen molecules at the surface of four forms of solid water is investigated by means of grand canonical Monte Carlo simulations. The trapping ability of crystalline Ih and low-density amorphous ices, along with clathrate hy-drates of structures I and II, are compared at temperatures relevant for astrophysics. It is shown that, when considering a gas phase that contains mixtures of carbon monoxide and nitrogen, the trapping of carbon monoxide is favored with respect to that of nitrogen at the surface of all solids, irrespective of the temperature. The results of the calculations also indicate that some amounts of molecules can …

Materials scienceInterface propertiesClathrate hydrateGeneral Physics and Astronomychemistry.chemical_elementGas phaseTrappingPhysics of gases010402 general chemistryAstrophysics01 natural scienceschemistry.chemical_compoundAmorphous materialsAdsorption0103 physical sciencesCometsMoleculePhysical and Theoretical ChemistryAdsorption isothermCarbon monoxideComputingMilieux_MISCELLANEOUS[PHYS]Physics [physics]010304 chemical physicsMonte Carlo methodsNitrogen0104 chemical sciencesAmorphous solid[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistrychemistry13. Climate actionChemical physics[SDU]Sciences of the Universe [physics]Complex solidsSelectivityCarbon monoxide

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Charge trapping processes and energy transfer studied in lead molybdate by EPR and TSL

2019

Abstract Charge trapping and energy transfer processes are investigated in PbMoO4 single crystals by electron paramagnetic resonance (EPR) and wavelength-resolved thermally stimulated luminescence (TSL) in a correlated manner. New signals produced by two differently perturbed Mo5+ centers (Mo2 and Mo3) were observed in EPR spectra measured in the crystals after 420 nm light irradiation. Two sets of spin-Hamiltonian parameters, g tensor and the 95,97Mo, 207Pb (super) hyperfine tensors, have been determined and analyzed in terms of crystal field and LCAO-MO theories. A significant overlap of the Mo 5d1 and 6s6p ligand Pb orbitals was deduced for the Mo3 whereas the Mo2 center seemed to be not…

Materials scienceLead molybdateBiophysics02 engineering and technologyTrapping010402 general chemistry01 natural sciencesBiochemistryMolecular physicsSpectral lineWavelength resolved TSLElectron traplaw.inventionCrystallawElectron paramagnetic resonanceHyperfine structureGeneral ChemistryRadioluminescence021001 nanoscience & nanotechnologyCondensed Matter PhysicsAtomic and Molecular Physics and Optics0104 chemical sciencesFIS/01 - FISICA SPERIMENTALERadioluminescenceCharge carrierEPR0210 nano-technologyLuminescenceJournal of Luminescence

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Is light narrowing possible with dense-vapor paraffin coated cells for atomic magnetometers?

2017

We investigated the operation of an all-optical rubidium-87 atomic magnetometer with amplitude-modulated light. To study the suppression of spin-exchange relaxation, three schemes of pumping were implemented with room-temperature and heated paraffin coated vacuum cells. Efficient pumping and accumulation of atoms in the F=2 ground state were obtained. However, the sought-for narrowing of the resonance lines has not been achieved. A theoretical analysis of the polarization degree is presented to illustrate the absence of light narrowing due to radiation trapping at high temperature.

Materials scienceMagnetometerGeneral Physics and AstronomyPolarization (waves)01 natural sciencesMolecular physicslcsh:QC1-999law.invention010309 opticslaw0103 physical sciencesRadiation trappingPhysics::Atomic Physics010306 general physicsGround stateAtomic magnetometerlcsh:PhysicsAIP Advances

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Colloidal plasmonic back reflectors for light trapping in solar cells.

2014

A novel type of plasmonic light trapping structure is presented in this paper, composed of metal nanoparticles synthesized in colloidal solution and self-assembled in uniform long-range arrays using a wet-coating method. The high monodispersion in size and spherical shape of the gold colloids used in this work allows a precise match between their measured optical properties and electromagnetic simulations performed with Mie theory, and enables the full exploitation of their collective resonant plasmonic behavior for light-scattering applications. The colloidal arrays are integrated in plasmonic back reflector (PBR) structures aimed for light trapping in thin film solar cells. The PBRs exhib…

Materials scienceMie scatteringPhysics::OpticsReflectionTrapping7. Clean energyThin film devices Colloidal arraySettore ING-INF/01 - ElettronicaColloidal solutionColloidOpticsElectromagnetic simulationThin film solar cells PlasmonsLow temperatureGeneral Materials SciencePlasmonic solar cellThin filmPlasmonPhotocurrentNear infrared spectrabusiness.industrySolar cellCondensed Matter::Soft Condensed MatterSynthesis (chemical)Light trapping structureOptoelectronicsDiffuse reflectanceDiffuse reflectionbusinessNanoscale

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'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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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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