Search results for "Paraxial approximation"

showing 10 items of 21 documents

Accurate expansion of cylindrical paraxial waves for its straightforward implementation in electromagnetic scattering

2017

Abstract The evaluation of vector wave fields can be accurately performed by means of diffraction integrals, differential equations and also series expansions. In this paper, a Bessel series expansion which basis relies on the exact solution of the Helmholtz equation in cylindrical coordinates is theoretically developed for the straightforward yet accurate description of low-numerical-aperture focal waves. The validity of this approach is confirmed by explicit application to Gaussian beams and apertured focused fields in the paraxial regime. Finally we discuss how our procedure can be favorably implemented in scattering problems.

DiffractionHelmholtz equationDifferential equationFOS: Physical sciences02 engineering and technologyPhysics - Classical Physics01 natural sciences010309 opticssymbols.namesake020210 optoelectronics & photonicsOptics0103 physical sciences0202 electrical engineering electronic engineering information engineeringCylindrical coordinate systemSpectroscopyPhysicsRadiationbusiness.industryMathematical analysisParaxial approximationClassical Physics (physics.class-ph)Atomic and Molecular Physics and OpticsExact solutions in general relativitysymbolsbusinessSeries expansionBessel functionOptics (physics.optics)Physics - Optics
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Isotropic compensation of diffraction-driven angular dispersion

2007

We report on an optical arrangement capable of compensating angular dispersion of paraxial wave fields developed by diffractive optical elements (DOEs). Schematically, the system is a beam expander in which two phase-only zone plates have been inserted, remaining afocal the coupled system. The DOE, which induces a continuous set of dispersive tilted plane waves, is placed at a specific position within the proposed setup providing an output spectrum with achromatic angular deviation. A directional matching between phase fronts and pulse fronts of output wave packets is demonstrated.

DiffractionWavefrontPhysicsAfocal photographyOpticsbusiness.industryDispersion (optics)Paraxial approximationPlane waveBeam expanderPhase velocitybusinessAtomic and Molecular Physics and OpticsOptics Letters
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Changes in the objective amplitude of accommodation with pupil size.

2014

PURPOSE We evaluate the effect of pupil size on objectively measured amplitude of accommodation (AA). METHODS Pupil diameter and wavefront aberrometry were obtained in 15 eyes when stimulus swept across the range of clear vision in steps of 0.5 diopters. Wavefront refraction techniques were used to compute objective AA as the maximum refractive change. Measurements were obtained monocularly under low and high ambient room lighting conditions with a fixed luminance of the fixation target. Amplitude of accommodation computations were performed taking into account just paraxial rays (paraxial AA) or including the effects of the change of spherical aberration during accommodation (minRMS AA). R…

MiosisAdultMaleCorneal Wavefront AberrationLightRefraction OcularLuminancePupilCorneaYoung AdultOpticsmedicineHumansDioptrePhysicsbusiness.industryAberrometryParaxial approximationAccommodation OcularPupilAmplitude of accommodationOphthalmologySpherical aberrationFemalemedicine.symptombusinessAccommodationOptometryOptometry and vision science : official publication of the American Academy of Optometry
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Lateral magnification matrix from the dioptric power matrix formalism in the paraxial case.

2012

Background Previous studies have highlighted that power matrices fully characterize the concept of dioptric power of any astigmatic surface. Thus, the basic equations in physiological optics can be generalized using the matrix formalism of the dioptric power. Among others, lateral magnification has also been interpreted as a matrix but mainly concerning magnification modification induced by spectacle correction of refractive error. Purpose To provide a fresh look into a novel paraxial formulation for the assessment of the lateral magnification using power matrices and in presence of astigmatism for thin and thick imaging systems in general. Methods Linear optics provides the frame to genera…

Optics and Photonicsbusiness.industrymedia_common.quotation_subjectParaxial approximationPhysics::OpticsMagnificationAstigmatismAsymmetrySensory SystemsOphthalmologyMatrix (mathematics)Formalism (philosophy of mathematics)OpticsThin lensHumansbusinessRefractive indexPower matrixOptometrymedia_commonMathematicsLensesOphthalmicphysiological optics : the journal of the British College of Ophthalmic Opticians (Optometrists)
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Chapter 1 The Resolution Challenge in 3D Optical Microscopy

2009

Publisher Summary This chapter discusses the theoretical principles of 3D microscopy with the widespread realizations of 3D microscopy.Based on the paraxial diffraction equations, it has been shown that conventional microscopes, when dealing with 3D fluorescent samples, provide sets of 2D images. These images of the different transverse sections of the 3D object contain, in addition to the sharp image of the in focus section, the blurred images of the rest of the specimen. The paraxial formalism has been generalized in a very simple way to a non-paraxial context, showing that the equations that govern non-paraxial imaging are similar to those that govern paraxial imaging. The only differenc…

Physics2d imagesFormalism (philosophy of mathematics)OpticsMicroscopeOptical microscopebusiness.industrylawParaxial approximationbusiness3d microscopyKirchhoff's diffraction formulalaw.invention
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Paraxial waves in the far-field region

2002

Summary By investigating the changes suffered by a paraxial beam propagating in the near-field and in the far-field regions, it has been found a set of wave equations valid for points gradually closer to the near field. A relevant expression for the validity of the far-field approximation is given from the paraxial Helmholtz equation. It is pointed out that the well-known Fresnel number associated with every transverse diffraction pattern can be interpreted as a magnitude that measures the relative standard deviation of the Fraunhofer pattern and a first-order field, thus reporting on an integral expression suitable for a general case. Finally, the Rayleigh range of the optical beam is dedu…

PhysicsDiffractionHelmholtz equationbusiness.industryParaxial approximationPhysics::OpticsWave equationAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsComputational physicsOpticsRayleigh lengthFresnel numberElectrical and Electronic EngineeringbusinessFresnel diffractionGaussian beamOptik
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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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Diffraction-free beams with elliptic Bessel envelope in periodic media

2007

We report on discrete, nondiffracting, paraxial beams with a Bessel spatial envelope in 1D periodic structures of dielectric media. Anisotropy of the envelope profile is demonstrated to behave in the same manner as extraordinary waves in uniaxial crystals.

PhysicsDiffractionUniaxial crystalbusiness.industryParaxial approximationPhysics::OpticsStatistical and Nonlinear PhysicsAtomic and Molecular Physics and OpticsPtychographysymbols.namesakeOpticsBessel beamsymbolsCrystal opticsbusinessBessel functionEnvelope (waves)Journal of the Optical Society of America B
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Quasi-wavelength-independent broadband optical Fourier transformer

1999

The chromatic behaviour associated with diffractive optical elements is exploited herein to design a hybrid (diffractive-refractive) lens triplet showing very great wavelength-compensation capabilities for the Fraunhofer diffraction pattern of any diffracting screen under broadband point-source illumination. Within the paraxial Fresnel diffraction theory, we show that perfect compensation for the axial position of the Fourier transform of the input can be accomplished if we neglect the secondary spectrum of the refractive objective. Simultaneously, an achromatic correction for the scale of the Fraunhofer pattern is achieved. In this way, even for white light, only a low residual transversal…

PhysicsDiffractionbusiness.industryFourier opticsParaxial approximationPhysics::OpticsAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic Materialslaw.inventionsymbols.namesakeOpticsFourier transformAchromatic lenslawChromatic aberrationsymbolsChromatic scaleElectrical and Electronic EngineeringPhysical and Theoretical ChemistrybusinessFresnel diffractionOptics Communications
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Space-time analogy for partially coherent plane-wave-type pulses.

2005

In this Letter we extend the well-known space-time duality to partially coherent wave fields and, as a limit case, to incoherent sources. We show that there is a general analogy between the paraxial diffraction of quasi-monochromatic beams of limited spatial coherence and the temporal distortion of partially coherent plane-wave pulses in parabolic dispersive media. Next, coherence-dependent effects in the propagation of Gaussian Schell-model pulses are retrieved from that of their spatial counterpart, the Gaussian Schell-model beam. Finally, the last result allows us to present a source linewidth analysis in an optical fiber communication system operating around the 1.55 microm wavelength w…

PhysicsDiffractionbusiness.industryGaussianParaxial approximationPlane wavePhysics::OpticsAtomic and Molecular Physics and OpticsWavelengthsymbols.namesakeLaser linewidthOpticsCoherence theorysymbolsbusinessCoherence (physics)Optics letters
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