Search results for "MAGNETIC FIELD"

showing 10 items of 1488 documents

Effects of pulsed high-frequency electromagnetic fields on the neuroendocrine system.

1998

The influence of pulsed high-frequency electromagnetic fields emitted from a circularly polarized antenna on the neuroendocrine system in healthy humans was investigated (900 MHz electromagnetic field, pulsed with 217 Hz, average power density 0.02 mW/cm<sup>2</sup>). Nocturnal hormone profiles of growth hormone (GH), cortisol, luteinizing hormone (LH) and melatonin were determined under polysomnographic control. An alteration in the hypothalamo-pituitary-adrenal axis activity was found with a slight, transient elevation in the cortisol serum level immediately after onset of field exposure which persisted for 1 h. For GH, LH and melatonin, no significant effects were found under…

Electromagnetic fieldAdultMalemedicine.medical_specialtyHypothalamo-Hypophyseal SystemAdolescentHydrocortisoneEndocrinology Diabetes and MetabolismStimulus (physiology)NocturnalGrowth hormoneMelatoninPlacebosCellular and Molecular NeuroscienceEndocrinologyElectromagnetic FieldsInternal medicineAdrenal GlandsmedicineHumansMelatoninEndocrine and Autonomic SystemsChemistryHuman Growth HormoneElectroencephalographyLuteinizing HormoneEndocrinologyLuteinizing hormoneSleepSleep eegHormonemedicine.drugNeuroendocrinology
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No effects of pulsed radio frequency electromagnetic fields on melatonin, cortisol, and selected markers of the immune system in man.

2001

There is growing public concern that radio frequency electromagnetic fields may have adverse biological effects. In the present study eight healthy male students were tested to see whether or not radio frequency electromagnetic fields as used in modern digital wireless telecommunication (GSM standard) have noticeable effects on salivary melatonin, cortisol, neopterin, and immunoglobulin A (sIgA) levels during and several hours after exposure. In a specifically designed, shielded experimental chamber, the circularly polarized electromagnetic field applied was transmitted by an antenna positioned 10 cm behind the head of upright sitting test persons. The carrier frequency of 900 MHz was pulse…

Electromagnetic fieldAdultMalemedicine.medical_specialtyTime FactorsHydrocortisonePhysiologyRadio WavesBiophysicsAudiologyNeopterinDouble blindMelatoninchemistry.chemical_compoundImmune systemElectromagnetic FieldsReference ValuesInternal medicineMedicineHumansRadiology Nuclear Medicine and imagingCircadian rhythmSalivaMelatoninbusiness.industryNeopterinGeneral MedicineCircadian RhythmImmunoglobulin AEndocrinologychemistryRadio frequencybusinessBiomarkersRadio wavemedicine.drugBioelectromagnetics
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Intracranial measurement of current densities induced by transcranial magnetic stimulation in the human brain

2003

Transcranial magnetic stimulation (TMS) is a non-invasive technique that uses the principle of electromagnetic induction to generate currents in the brain via pulsed magnetic fields. The magnitude of such induced currents is unknown. In this study we measured the TMS induced current densities in a patient with implanted depth electrodes for epilepsy monitoring. A maximum current density of 12 microA/cm2 was recorded at a depth of 1 cm from scalp surface with the optimum stimulation orientation used in the experiment and an intensity of 7% of the maximal stimulator output. During TMS we recorded relative current variations under different stimulating coil orientations and at different points…

Electromagnetic fieldAdultMaterials sciencemedicine.medical_treatmentModels NeurologicalNuclear magnetic resonanceElectromagnetic FieldsEpilepsy Complex PartialmedicineHumansGeneral NeuroscienceSkullBrainTranscranial Magnetic StimulationElectric StimulationIntensity (physics)Magnetic fieldElectromagnetic inductionElectrodes ImplantedTranscranial magnetic stimulationElectromagnetic coiltranscranial magnetic stimulatione depth electrodes epilepsyBrain InjuriesFemaleCurrent (fluid)ArtifactsCurrent densityNeuroscience
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Laser Assisted Dirac Electron in a Magnetized Annulus

2021

We study the behaviour of a charge bound on a graphene annulus under the assumption that the particle can be treated as a massless Dirac electron. The eigenstates and relative energy are found in closed analytical form. Subsequently, we consider a large annulus with radius ρ∈[5000,10,000]a0 in the presence of a static magnetic field orthogonal to its plane and again the eigenstates and eigenenergies of the Dirac electron are found in both analytical and numerical form. The possibility of designing filiform currents by controlling the orbital angular momentum and the magnetic field is shown. The currents can be of interest in optoelectronic devices that are controlled by electromagnetic radi…

Electromagnetic fieldAngular momentumPhysics and Astronomy (miscellaneous)General Mathematics02 engineering and technologyElectronMassless Dirac electron01 natural sciencesElectromagnetic radiationComputer Science::Digital Libraries0103 physical sciencesComputer Science (miscellaneous)Annulus (firestop)010306 general physicsSpin-½Physicslcsh:Mathematicsanalytic solution of Dirac equationgraphene in external fieldgraphene in external fields021001 nanoscience & nanotechnologyMagnetostaticslcsh:QA1-939Magnetic fieldChemistry (miscellaneous)Quantum electrodynamics0210 nano-technologySymmetry
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An inverse problem for the fractional Schrödinger equation in a magnetic field

2020

This paper shows global uniqueness in an inverse problem for a fractional magnetic Schrodinger equation (FMSE): an unknown electromagnetic field in a bounded domain is uniquely determined up to a natural gauge by infinitely many measurements of solutions taken in arbitrary open subsets of the exterior. The proof is based on Alessandrini's identity and the Runge approximation property, thus generalizing some previous works on the fractional Laplacian. Moreover, we show with a simple model that the FMSE relates to a long jump random walk with weights.

Electromagnetic fieldApproximation propertyApplied MathematicsMathematical analysis010103 numerical & computational mathematicsInverse problemRandom walk01 natural sciencesDomain (mathematical analysis)Computer Science ApplicationsTheoretical Computer ScienceSchrödinger equation010101 applied mathematicssymbols.namesakeBounded functionSignal ProcessingsymbolsUniqueness0101 mathematicsMathematical PhysicsMathematicsInverse Problems
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A RADIATION CONDITION FOR UNIQUENESS IN A WAVE PROPAGATION PROBLEM FOR 2-D OPEN WAVEGUIDES

2009

We study the uniqueness of solutions of Helmholtz equation for a problem that concerns wave propagation in waveguides. The classical radiation condition does not apply to our problem because the inhomogeneity of the index of refraction extends to infinity in one direction. Also, because of the presence of a waveguide, some waves propagate in one direction with different propagation constants and without decaying in amplitude. Our main result provides an explicit condition for uniqueness which takes into account the physically significant components, corresponding to guided and non-guided waves; this condition reduces to the classical Sommerfeld-Rellich condition in the relevant cases. Final…

Electromagnetic fieldAsymptotic analysisHelmholtz equationWave propagationGeneral Mathematicsmedia_common.quotation_subject78A40 35J05 78A50 35A05Mathematical analysisGeneral Engineeringelectromagnetic fields • wave propagation • Helmholtz equation • optical waveguides • uniqueness of solutions • radiation conditionInfinitylaw.inventionAmplitudeMathematics - Analysis of PDEslawFOS: Mathematicswave propagation; Helmholtz equation; optical waveguides; radiation condition; uniqueness theoremsUniquenessWaveguidemedia_commonMathematicsAnalysis of PDEs (math.AP)
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A numerical study of the Schumann resonances in Mars with the FDTD method

2007

[1] Natural electromagnetic waves generated near the surface by electrostatic discharges in dust storms (dust devils) or by geological activity could be trapped in the resonant cavity formed by the surface and lower ionosphere of Mars, as it occurs on Earth giving rise to Schumann resonances. The finite difference time-domain technique (FDTD) is applied to model the atmosphere of Mars in order to determine Schumann resonant frequencies, and natural electromagnetic fields at the extremely low frequency range (ELF). A numerical tool is provided to analyze the electrical conductivity profile of the Martian atmosphere, with the aim of obtaining Schumann resonance frequencies and their dependenc…

Electromagnetic fieldAtmospheric ScienceSoil ScienceAquatic ScienceOceanographyElectromagnetic radiationAtmosphereOpticsGeochemistry and PetrologyEarth and Planetary Sciences (miscellaneous)Extremely low frequencyEarth-Surface ProcessesWater Science and TechnologyPhysicsEcologySchumann resonancesbusiness.industryPaleontologyForestryMars Exploration ProgramAtmosphere of MarsComputational physicsGeophysicsSpace and Planetary SciencePhysics::Space PhysicsAstrophysics::Earth and Planetary AstrophysicsIonospherebusinessJournal of Geophysical Research: Space Physics
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First Example of Coexistence of Thermal Spin Transition and Liquid-Crystal Properties.

2001

The rodlike FeIII complex of an N-alkyloxysalicylidenyl-N'-ethyl-N-ethylenediamine ligand, shown as a computer model in the picture, is the first compound in which spin-crossover (SC) and liquid-crystalline (LC) properties coexist. This synergy should allow the magnetic and optical properties of SC compounds to be combined with the sensitivity of the LC state to electromagnetic fields.

Electromagnetic fieldChemistryLigandSpin transitionGeneral ChemistryGeneral MedicineCatalysisCondensed Matter::Soft Condensed MatterNuclear magnetic resonanceLiquid crystalChemical physicsSpin crossoverThermalCondensed Matter::Strongly Correlated ElectronsAngewandte Chemie (International ed. in English)
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Numerical model of turbulent CZ melt flow in the presence of AC and CUSP magnetic fields and its verification in a laboratory facility

2001

The paper describes a numerical simulation tool for heat and mass transfer processes in large diameter CZ crucibles under the influence of several non-rotating AC and CUSP magnetic fields. Such fields are expected to provide an additional means to influence the melt behaviour, particularly in the industrial growth of large diameter silicon crystals. The simulation tool is based on axisymmetric 2D models for the AC and CUSP magnetic fields in the whole CZ facility and turbulent hydrodynamics, temperature and mass transport in the melt under the influence of the electromagnetic fields. The simulation tool is verified by comparisons to experimental results from a laboratory CZ setup with eutec…

Electromagnetic fieldComputer simulationbusiness.industryTurbulenceChemistryMechanicsCondensed Matter PhysicsMagnetic fieldInorganic ChemistryOpticsMass transferHeat transferMaterials ChemistryFluid dynamicsbusinessMelt flow indexJournal of Crystal Growth
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Dielectric properties of pineapple as function of temperature and water content

2013

Microwave assisted processing is a new and growing field of interest for food industry (Tang et al., 2002; Schubert & Regier, 2005). Many advantages (fast treatments, selective heating and so on) are obtainable by microwave heating due to its peculiar energy transfer that derives from a direct interaction between electromagnetic field and matter (Metaxas & Meredith, 1983). As foods are poor heat conductors, endogenous heat generation allows to overcome some difficulties that characterise conventional heating methods based on convective/conductive heat transfer phenomena (Barba, 2005; Botha et al., 2012). The key-role in design, modelling and management of microwave assisted processes is pla…

Electromagnetic fieldConvectionPermittivityMaterials scienceCondensed matter physicsField (physics)Heat generationDielectricThermal conductionIndustrial and Manufacturing EngineeringMicrowaveFood ScienceInternational Journal of Food Science & Technology
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