Search results for "Maxwell's equations"

showing 10 items of 39 documents

Nonparaxial shape-preserving Airy beams with Bessel signature

2014

Spatially accelerating beams that are solutions to Maxwell equations may propagate along incomplete circular trajectories. Taking these truncated Bessel fields to the paraxial limit, some authors have sustained that it has recovered the known Airy beams (AiBs). Based on the angular spectrum representation of optical fields, we demonstrated that the paraxial approximation rigorously leads to off-axis focused beams instead of finite-energy AiBs. The latter will arise under the umbrella of a nonparaxial approach following elliptical trajectories in place of parabolas. The analytical expression of such a shape-preserving wave field under Gaussian apodization is disclosed by using third-order no…

PhysicsDiffractionParaxial approximationFOS: Physical sciencesPhysics::OpticsAtomic and Molecular Physics and OpticsAngular spectrum methodsymbols.namesakeClassical mechanicsMaxwell's equationssymbolsPhysics::Accelerator PhysicsLimit (mathematics)Representation (mathematics)Bessel functionBeam (structure)Optics (physics.optics)Physics - Optics
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Generation of accelerating beams using nano-scale metallic circular gratings

2014

Spatially accelerating beams that are solutions to the Maxwell equations may propagate along incomplete circular trajectories, after which diffraction broadening takes over and the beams spread out. In this paper we report on numerical simulations that show the conversion of a high-numerical-aperture focused beam into a nonparaxial shape-preserving accelerating beam having a beam-width near the diffraction limit. Beam shaping is induced by a diffractive optical element that consists of a non-planar sub-wavelength grating enabling a Bessel signature.

PhysicsDiffractionbusiness.industryPhysics::OpticsGratingDiffraction efficiencysymbols.namesakeOpticsMaxwell's equationsLimit (music)symbolsPhysics::Accelerator PhysicsbusinessNanoscopic scaleBeam (structure)Bessel function2014 16th International Conference on Transparent Optical Networks (ICTON)
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Diffusivity in force-free simulations of global magnetospheres

2021

Abstract: Assuming that the numerical diffusivity triggered by violations of the force-free electrodynamics constraints is a proxy for the physical resistivity, we examine its impact on the overall dynamics of force-free aligned pulsar magnetospheres endowed with an equatorial current sheet. We assess the constraint violations as a diffusivity source. The effects of modifications on electric fields used to restore force-free conditions are not confined to the equatorial current sheet, but modify the magnetospheric dynamics on timescales shorter than the pulsar rotational period. These corrections propagate especially via a channel that was unexplored, namely, changes induced to the electric…

PhysicsHigh Energy Astrophysical Phenomena (astro-ph.HE)Astrophysics::High Energy Astrophysical PhenomenaFluxCharge densityFOS: Physical sciencesAstronomy and AstrophysicsThermal diffusivityLuminositysymbols.namesakeCurrent sheetMaxwell's equationsPulsarSpace and Planetary ScienceQuantum electrodynamicsPoynting vectorsymbolsAstrophysics - High Energy Astrophysical PhenomenaAstrophysics - Instrumentation and Methods for AstrophysicsInstrumentation and Methods for Astrophysics (astro-ph.IM)
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Role of gravity in the pair creation induced by electric fields

2018

We analyze the pair production induced by homogenous, time-dependent electric fields in an expanding space-time background. We point out that, in obtaining the semiclassical Maxwell equations, two distinct notions of adiabatic renormalization are possible. In Minkowski space the two recipes turn out to be equivalent. However, in the presence of gravity only the recipe requiring an adiabatic hierarchy between the gravitational and the gauge field is consistent with the conservation of the energy-momentum tensor.

PhysicsHigh Energy Physics - Theory010308 nuclear & particles physicsSemiclassical physicsFOS: Physical sciencesGeneral Relativity and Quantum Cosmology (gr-qc)01 natural sciencesGeneral Relativity and Quantum CosmologyRenormalizationGravitationsymbols.namesakeClassical mechanicsMaxwell's equationsHigh Energy Physics - Theory (hep-th)0103 physical sciencesMinkowski spacesymbolsTensorGauge theory010306 general physicsAdiabatic process
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Levy flights and nonlocal quantum dynamics

2013

We develop a fully fledged theory of quantum dynamical patterns of behavior that are nonlocally induced. To this end we generalize the standard Laplacian-based framework of the Schr\"{o}dinger picture quantum evolution to that employing nonlocal (pseudodifferential) operators. Special attention is paid to the Salpeter (here, $m\geq 0$) quasirelativistic equation and the evolution of various wave packets, in particular to their radial expansion in 3D. Foldy's synthesis of "covariant particle equations" is extended to encompass free Maxwell theory, which however is devoid of any "particle" content. Links with the photon wave mechanics are explored.

PhysicsHigh Energy Physics - TheoryQuantum PhysicsPhotonStatistical Mechanics (cond-mat.stat-mech)Wave packetQuantum dynamicsFOS: Physical sciencesStatistical and Nonlinear PhysicsMathematical Physics (math-ph)Schrödinger equationsymbols.namesakeMaxwell's equationsHigh Energy Physics - Theory (hep-th)symbolsSchrödinger pictureMatter waveQuantum Physics (quant-ph)QuantumCondensed Matter - Statistical MechanicsMathematical PhysicsMathematical physics
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Direct interpretation of near-field optical images.

2001

The interpretation of the detection process in near-field optical microscopy is reviewed on the basis of a discussion about the possibility of establishing direct comparisons between experimental images and the solutions of Maxwell equations or the electromagnetic local density of states. On the basis of simple physical arguments, it is expected that the solutions of Maxwell equations should agree with images obtained by collecting mode near-field microscopes, while the electromagnetic local density of states should be considered to provide a practical interpretation of illumination mode near-field microscopes. We review collecting mode near-field microscope images where the conditions to o…

PhysicsHistologyMicroscopeLocal density of statesbusiness.industryNear and far fieldContext (language use)Pathology and Forensic Medicinelaw.inventionMagnetic fieldsymbols.namesakeOpticsMaxwell's equationslawElectric fieldMicroscopysymbolsbusinessJournal of microscopy
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Soliton-plasmon resonances as Maxwell nonlinear bound states

2012

We demonstrate that soliplasmons (soliton–plasmon bound states) appear naturally as eigenmodes of nonlinear Maxwell’s equations for a metal/Kerr interface. Conservative stability analysis is performed by means of finite element numerical modeling of the time-independent nonlinear Maxwell equations. Dynamical features are in agreement with the presented nonlinear oscillator model.

PhysicsSurface plasmonPhysics::OpticsSoliton (optics)Surface plasmon polaritonAtomic and Molecular Physics and OpticsFinite element methodNonlinear systemsymbols.namesakeClassical mechanicsMaxwell's equationsQuantum electrodynamicsBound statesymbolsPlasmon
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Soil ionization in earth electrodes by a finite difference time domain scheme

2004

This paper proposes a finite difference time domain numerical scheme devoted to analyze the transient behavior of earth electrodes during the soil breakdown that can take place when a surge current has to be drained. To this aim, Maxwell's equations together with a space-time variable resistivity function are used. The model has been validated by comparing the computed results with data available in the technical literature. Simulation results related to complex earth electrodes of limited extension are reported. Electrodes of larger extension can be easily simulated but requiring more computational resources.

PhysicsVariable (computer science)symbols.namesakeMaxwell's equationsElectrical resistivity and conductivityIonizationFinite-difference time-domain methodElectronic engineeringsymbolsFunction (mathematics)Transient (oscillation)MechanicsSurge
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The time-harmonic Maxwell equations

1996

In this chapter we shall see that the solution of the time-harmonic Maxwell equations with real coefficients can be transformed to time independent partial differential equations with complex coefficients. Then we introduce a finite element approximation proposed in [Křižek, Neittaanmaki, 1989]. A similar technique is analyzed in [Křižek, Neittaanmaki, 1984b], [Monk, 1992a] (for fully time dependent problems see, e.g., [Monk 1992b,c]).

Physicssymbols.namesakeJefimenko's equationsClassical mechanicsTheoretical and experimental justification for the Schrödinger equationMaxwell's equationsMaxwell's equations in curved spacetimesymbolsInhomogeneous electromagnetic wave equationMatrix representation of Maxwell's equationsMaxwell relationsElectromagnetic tensor
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Maxwell’s Equations

2012

The empirical basis of electrodynamics is defined by Faraday’s law of induction, by Gauss’ law, by the law of Biot and Savart and by the Lorentz force and the principle of universal conservation of electric charge. These laws can be tested – confirmed or falsified – in realistic experiments. The integral form of the laws deals with physical objects that are one-dimensional, two-dimensional, or three-dimensional, that is to say, objects such as linear wires, conducting loops, spatial charge distributions, etc. Thus, the integral form depends, to some extent, on the concrete experimental set-up. To unravel the relationships between seemingly different phenomena, one must switch from the integ…

Physicssymbols.namesakeJefimenko's equationsClassical mechanicsTheoretical and experimental justification for the Schrödinger equationMaxwell's equationsMaxwell's equations in curved spacetimesymbolsMatrix representation of Maxwell's equationsInhomogeneous electromagnetic wave equationLorentz forceElectromagnetic tensor
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