Search results for "Thermal"

showing 10 items of 3576 documents

Thermal Creation of Defects in GaTe

2008

Photoluminescence spectra of as-grown and annealed GaTe single crystals in the 0.7–1.8 eV range have been analyzed at different temperatures. Annealing up to 200 °C produces an increase in the recombination intensity of an excitonic characteristic. The annealing at 400 °C generates an intense optically active recombination in the infrared region (0.76 eV). The thermal generation of defects is possible, owing to the low melting temperature of GaTe (800 °C).

Materials sciencePhotoluminescencePhysics and Astronomy (miscellaneous)business.industryInfraredAnnealing (metallurgy)Melting temperatureGeneral EngineeringGeneral Physics and AstronomyOptically activeSpectral lineThermalOptoelectronicsbusinessRecombinationJapanese Journal of Applied Physics
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Entrapping of O2 Molecules in Nanostructured Silica Probed by Photoluminescence

2013

We studied the emission of the O2 molecules embedded in fumed silica (amorphous silicon dioxide) nanoparticles differing for diameters and specific surface. By using a 1064 nm laser as a source we recorded both the O2 emission and the Raman signal of silica. Our experimental data show that the O2 emission/Raman signal (at 800cm-1) ratio decreases with increasing the specific surface both for the as received and the loaded samples. By performing a thermal treatment (600 °C for 2h) we modified the structure and the water content of the smallest nanoparticles without observing any significant change in the O2 emission/Raman signal ratio. Our data are explained by a shell model showing that the…

Materials sciencePhotoluminescenceRelaxation (NMR)Analytical chemistryNanoparticleThermal treatmentLaserSurfaces Coatings and FilmsElectronic Optical and Magnetic Materialslaw.inventionsymbols.namesakeGeneral EnergylawsymbolsMoleculePhysical and Theoretical ChemistryRaman spectroscopySilica nanoparticles molecular oxygen Raman spectroscopy.Fumed silicaThe Journal of Physical Chemistry C
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<title>New aspect of light emission from silicon nanocrystals</title>

2003

Intensive light emission (photoluminescence) from silicon nanocrystals has been interpreted in literature as recombinative emission. It has been supposed that the band structure is "pseidodirect." The literature analysis presented in our paper shows that the band structure is indirect and therefore intensive recombinative emission is not possible. According to new aspect, a part of electrons reaches the second conduction subband due to Auger recombination. Then the intensive visible radiation could be caused by transitions of these electrons from the second to the first conduction subband. We have constructed continuity equations for the electron concentration in the first and the second co…

Materials sciencePhotoluminescenceSiliconAuger effectchemistry.chemical_elementElectronCondensed Matter::Mesoscopic Systems and Quantum Hall EffectThermal conductionsymbols.namesakechemistrysymbolsLight emissionAtomic physicsElectronic band structureLuminescenceSPIE Proceedings
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Diamond magnetometer enhanced by ferrite flux concentrators

2020

Magnetometers based on nitrogen-vacancy (NV) centers in diamond are promising room-temperature, solid-state sensors. However, their reported sensitivity to magnetic fields at low frequencies (<1 kHz) is presently >10 pT s^{1/2}, precluding potential applications in medical imaging, geoscience, and navigation. Here we show that high-permeability magnetic flux concentrators, which collect magnetic flux from a larger area and concentrate it into the diamond sensor, can be used to improve the sensitivity of diamond magnetometers. By inserting an NV-doped diamond membrane between two ferrite cones in a bowtie configuration, we realize a ~250-fold increase of the magnetic field amplitude wi…

Materials sciencePhysics - Instrumentation and DetectorsMagnetometerFOS: Physical sciences02 engineering and technologyApplied Physics (physics.app-ph)engineering.material01 natural sciencesArticlelaw.inventionlaw0103 physical sciencesThermalMesoscale and Nanoscale Physics (cond-mat.mes-hall)Laser power scaling010306 general physicsCondensed Matter - Mesoscale and Nanoscale Physicsbusiness.industryMicrowave powerDiamondInstrumentation and Detectors (physics.ins-det)Physics - Applied Physics021001 nanoscience & nanotechnologyMagnetic fluxMagnetic fieldengineeringFerrite (magnet)Optoelectronics0210 nano-technologybusinessOptics (physics.optics)Physics - Optics
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Thickness-dependent electron momentum relaxation times in iron films

2020

Terahertz time-domain conductivity measurements in 2 to 100 nm thick iron films resolve the femtosecond time delay between applied electric fields and resulting currents. This current response time decreases from 29 fs for thickest films to 7 fs for the thinnest films. The macroscopic response time is not strictly proportional to the conductivity. This excludes the existence of a single relaxation time universal for all conduction electrons. We must assume a distribution of microscopic momentum relaxation times. The macroscopic response time depends on average and variation of this distribution; the observed deviation between response time and conductivity scaling corresponds to the scaling…

Materials sciencePhysics and Astronomy (miscellaneous)FOS: Physical sciences02 engineering and technologyElectronConductivity01 natural sciencesElectric field0103 physical sciencesMesoscale and Nanoscale Physics (cond-mat.mes-hall)Scaling010302 applied physicsMomentum (technical analysis)Condensed Matter - Materials ScienceCondensed matter physics[PHYS.PHYS]Physics [physics]/Physics [physics]Condensed Matter - Mesoscale and Nanoscale PhysicsRelaxation (NMR)Materials Science (cond-mat.mtrl-sci)Physik (inkl. Astronomie)021001 nanoscience & nanotechnologyThermal conductionCondensed Matter - Other Condensed MatterFemtosecond0210 nano-technologyOther Condensed Matter (cond-mat.other)
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Thermal characteristics of silicon nitride membranes at sub-Kelvin temperatures

1998

We have performed calorimetric measurements on 200 nm thin silicon nitride membranes at temperatures from 0.07 to 1 K. Besides full windows, membranes cut into a thermally isolating suspended bridge geometry were investigated. Based on dc and ac measurements employing normal-metal/insulator/superconductor (NIS) tunnel junctions both as a thermometer and a heater, we report on heat transport and thermal relaxation in silicon nitride films. The bridge structure improves thermal isolation and, consequently, energy sensitivity by two orders of magnitude over those of the full membrane with the same size, and makes such a structure very attractive for bolometric and microrefrigeration applicatio…

Materials sciencePhysics and Astronomy (miscellaneous)business.industryBolometerAnalytical chemistryInsulator (electricity)Cryogenicslaw.inventionchemistry.chemical_compoundMembraneThermal conductivitySilicon nitridechemistrylawOptoelectronicsThermal stabilitybusinessOrder of magnitudeApplied Physics Letters
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Positron lifetime measurements on neutron‐irradiated InP crystals

1996

Neutron‐irradiated InP single crystals have been investigated by positron‐lifetime measurements. The samples were irradiated with thermal neutrons at different fluences yielding concentrations for Sn‐transmuted atoms between 2×1015 and 2×1018 cm−3. The lifetime spectra have been analyzed into one exponential decay component. The mean lifetimes show a monotonous increase with the irradiation dose from 246 to 282 ps. The increase in the lifetime has been associated to a defect containing an Indium vacancy. Thermal annealing at 550 °C reduces the lifetime until values closed to those obtained for the as‐grown and conventionally doped InP crystals. navarrof@evalvx.ific.uv.es ; Jose.Ferrero@uv.es

Materials sciencePhysics::Instrumentation and DetectorsPhysics::Medical PhysicsAnalytical chemistryGeneral Physics and Astronomychemistry.chemical_elementDefect StructureMonocrystalsSpectral lineCondensed Matter::Materials Science:FÍSICA [UNESCO]Vacancy defectNeutronIrradiationIndium Phosphides ; Radiation Effects ; Thermal Neutrons ; Monocrystals ; Positron Probes ; Lifetime ; Defect StructureExponential decayPositron ProbesDopingRadiochemistryUNESCO::FÍSICANeutron temperatureRadiation EffectschemistryIndium PhosphidesThermal NeutronsLifetimeIndiumJournal of Applied Physics
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Study of short-lived tin isotopes with a laser ion source

1995

A chemically selective laser ion source based on resonance ionization of atoms in a hot cavity has been applied for the study of short-lived silver isotopes at CERN/ ISOLDE. Silver atoms were ionized by two resonant excitations and final laser ionization into the continuum. Decay properties of the neutron-rich isotopes121–127Ag were studied with a neutron long-counter and aβ-detector.

Materials sciencePhysics::OpticsThermal ionizationLaserIon sourcelaw.inventionAtmospheric-pressure laser ionizationlawIonizationIsotopes of tinPhysics::Atomic and Molecular ClustersNeutronPhysics::Atomic PhysicsAtomic physicsNuclear ExperimentAmbient ionizationAIP Conference Proceedings
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Adding a cooling vest during cycling improves performance in warm and humid conditions

2012

It is known that warm and humid environment reduces human physical performance. The present study examined whether the use of an ice-vest in such conditions can improve cycling performance. Seven participants cycled with consecutive, non-stop, 10-minute cycles of nine minutes at 60% of their (V) over dot O-2 max punctuated by a one-minute sprint at 80% (V) over dot O-2 max. The cycling protocol was continuously repeated until exhaustion. The protocol was performed with the ice-vest (ICE), worn after 30 min of cycling, and without the ice-vest throughout the protocol (CON). Ventilatory and thermal responses were continuously recorded. Electromyographic (EMG) signals from four muscles of the …

Materials sciencePhysiologyThermal strainThermoregulationBiochemistryExercise timeRespiratory quotientAnimal scienceSprintBreathingVESTGeneral Agricultural and Biological SciencesCyclinghuman activitiesDevelopmental BiologyJournal of Thermal Biology
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Capacitive scanning dilatometry and frequency-dependent thermal expansion of polymer films

2000

The dilatometric properties of polymer films near and above their glass-transition temperatures were explored using capacitive high-frequency detection in temperature ramping as well as in harmonic temperature cycling experiments. The broad applicability of capacitive scanning dilatometry is demonstrated by the investigation of macromolecular systems of vastly different polarity such as polystyrene, polybutadiene, and polyvinylacetate. From temperature cycling experiments the real and imaginary parts of the frequency-dependent thermal-expansion coefficient are determined in the sub-Hz regime.

Materials sciencePolarity (physics)Capacitive sensingInstitut für Physik und AstronomieTemperature cycling530Thermal expansionchemistry.chemical_compoundPolybutadienechemistryThermomechanical analysisPolystyreneComposite materialGlass transitioninfo:eu-repo/classification/ddc/530Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics
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