Search results for "Aberration"

showing 10 items of 293 documents

Newtonian and relativistic emission coordinates

2009

Emission coordinates are those generated by positioning systems. Positioning systems are physical systems constituted by four emitters broadcasting their respective times by means of sound or light signals. We analyze the incidence of the space-time causal structure on the construction of emission coordinates. The Newtonian case of four emitters at rest is analyzed and contrasted with the corresponding situation in special relativity.

PhysicsNuclear and High Energy Physicssymbols.namesakeTheory of relativityClassical mechanicsLagrangian mechanicssymbolsRelativistic mechanicsRelativistic aberrationSpecial relativityAction-angle coordinatesIntroduction to the mathematics of general relativityTests of special relativityPhysical Review D
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Achromatic fan-out diffractive system for white-light free-space optical interconnects

2001

Abstract A simple and versatile white-light fan-out diffractive system based on the achromatization of the fractional Talbot effect is proposed. This achromatic configuration is able to interconnect a single polychromatic point source with a 2-D array of optoelectronic microdevices with low residual chromatic aberration even for white light. The whole broadband beamsplitter system is formed by two simple diffractive optical elements, a periodic diffractive lenslet array and a diffractive lens, that are made with a direct laser writing technique giving high light efficiency. The focal amplitude distribution corresponding to the lenslet array produces, by free-space propagation, self-replicas…

PhysicsPoint sourcebusiness.industryPlane (geometry)LaserDiffraction efficiencyAtomic and Molecular Physics and Opticslaw.inventionOpticslawAchromatic lensChromatic aberrationTalbot effectOptoelectronicsbusinessBeam splitterJournal of Modern Optics
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Axial behaviour of Cantor ring diffractals

2003

Cantor ring diffractals describe rotationally symmetric pupils constructed from a one-dimensional polyadic Cantor set. The influence on the axial irradiance of several fractal descriptors of such pupils, including fractal dimension, number of gaps and lacunarity, are investigated. It is shown that, contrary to their transversal response, the axial behaviour of these pupils does not resemble the fractal structure of the aperture. The sensitivity of such pupils to the spherical aberration is also analysed.

PhysicsRing (mathematics)business.industryApertureAstrophysics::Instrumentation and Methods for AstrophysicsComputer Science::Human-Computer InteractionFractal dimensionAtomic and Molecular Physics and OpticsCantor setSpherical aberrationFractalOpticsLacunarityTransversal (combinatorics)businessJournal of Optics A: Pure and Applied Optics
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Influencia del modelo de ojo teórico en la evaluación numérica de lentes intraoculares fractales

2020

In this work we present the numerical evaluation of a new design of fractal intraocular lens studied through a ray-tracing program. To determine the monochromatic and polychromatic performance of these lenses in different theoretical model eyes the Modulation Transfer Function (MTF) and the area above the MTF (AMTF) have been used. These merit functions show the same behavior for different values of asphericity (Q), independently from the theoretical model eye, even though there are differences due to the Spherical Aberration (SA) considered in each model.

PhysicsSpherical aberrationOpticsFractalbusiness.industryOptical transfer functionmedicine.medical_treatmentmedicineIntraocular lensMonochromatic colorbusinessSuplemento de la Revista Mexicana de Física
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Synthesis of filters for specified axial irradiance by use of phase–space tomography

2001

A procedure for designing pupil filters for applications where specified axial responses are required is developed. The method is based on the mathematical relationship between the axial impulse response of a system and the Wigner distribution function (WDF) associated to its pupil function. The desired axial irradiance, which can also have a predefined behavior depending on spherical aberration, is used to obtain this WDF by tomographic reconstruction. The synthetic pupil is retrieved from this distribution.

PhysicsTomographic reconstructiongenetic structuresbusiness.industryIterative reconstructioneye diseasesAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsSpherical aberrationOpticsPhase spacePupil functionWigner distribution functionsense organsTomographyElectrical and Electronic EngineeringPhysical and Theoretical ChemistrybusinessImpulse responseOptics Communications
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Invariant pattern recognition by use of wavelength multiplexing.

1997

Rotation-invariant pattern recognition can be achieved with circular-harmonic decomposition. A common problem with such a filter is that, because it is only a single term out of the circular decomposition, it does not contain much of the reference object's energy. Thus, the obtained correlation selectivity is low. This problem is solved by use of wavelength multiplexing. First, different harmonic terms are encoded by different wavelengths, and then they all are added incoherently in the output correlation plane. This process leads to rotation-invariant pattern recognition with a higher discrimination ability.

Physicsbusiness.industryMaterials Science (miscellaneous)Filter (signal processing)MultiplexingIndustrial and Manufacturing EngineeringWavelengthsymbols.namesakeOpticsFourier transformChromatic aberrationPattern recognition (psychology)symbolsHarmonicBusiness and International ManagementbusinessEnergy (signal processing)Applied optics
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White-light implementation of the Wigner-distribution function with an achromatic processor.

2010

A temporally incoherent optical processor that combines diffractive and refractive components is proposed for performing two different operations simultaneously: an achromatic image along an axis and an achromatic one-dimensional Fourier transformation along the orthogonal axis. These properties are properly employed to achieve the achromatic white-light display of the Wigner-distribution function associated with a one-dimensional real signal, with high redundancy and variable scale.

Physicsbusiness.industryMaterials Science (miscellaneous)Function (mathematics)Industrial and Manufacturing Engineeringlaw.inventionsymbols.namesakeFourier transformOpticsOrthogonal coordinatesAchromatic lenslawChromatic aberrationRedundancy (engineering)symbolsPhysics::Accelerator PhysicsWigner distribution functionSpatial frequencyBusiness and International ManagementbusinessApplied optics
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All-diffractive achromatic Fourier-transform setup

2009

An achromatic Fourier transformation under broadband converging spherical-wave illumination is optically achieved by use of only two on-axis blazed zone plates. The novel optical configuration provides the achromatic Fraunhofer diffraction pattern of an arbitrary input signal with adjustable magnification. Further analysis of the system permits us to obtain a simple analytical expression to evaluate both the longitudinal and the transversal residual chromatic aberration, resulting in a compact achromatic Fourier transformer with low chromatic errors, even for a wide spectral content of the point source.

Physicsbusiness.industryPoint sourcePhysics::OpticsMagnificationAtomic and Molecular Physics and OpticsPtychographylaw.inventionsymbols.namesakeOpticsFourier transformAchromatic lenslawBroadbandChromatic aberrationsymbolsPhysics::Accelerator PhysicsChromatic scalebusinessOptics Letters
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White-light array generation with a diffractive lenslet array

1999

Abstract In this paper we present two different optical configurations providing a white-light array generator based on a diffractive lenslet array (DLA). In both cases, starting from a white-light point source we achieve a regularly spaced set of sharp light spots by use of a single DLA and a small number of extra lenses (only one or two). The first optical system permits us to change the separation between the intensity peaks in a tunable way. The second is very compact and consists only of diffractive lens elements. The key question in both set-ups is the use of achromatic Fourier-transform methods. In this way, we achieve, in a first-order approximation, the superposition of the chromat…

Physicsbusiness.industryPoint sourcePhysics::OpticsRayAtomic and Molecular Physics and Opticslaw.inventionSuperposition principleWavelengthOpticsCardinal pointAchromatic lenslawChromatic aberrationOptoelectronicsMonochromatic colorbusinessJournal of Modern Optics
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PEEM with high time resolution—imaging of transient processes and novel concepts of chromatic and spherical aberration correction

2006

The potential of time-resolved photoemission electron microscopy (PEEM) for imaging ultrafast processes and for aberration correction in full-field imaging is discussed. In particular, we focus on stroboscopic imaging of precessional magnetic excitations via XMCD-PEEM exploiting the time structure of synchrotron radiation (magnetic field pulse pump–X-ray probe). In a special bunch-compression mode at BESSY, a time resolution of about 15 ps has been obtained. Further, we discuss an all-optical pump–probe technique using femtosecond laser excitation. A highly promising alternative to stroboscopic imaging is an approach using time-resolved image detection. As a second application of time-resol…

Physicsbusiness.industryResolution (electron density)Synchrotron radiationSurfaces and InterfacesGeneral ChemistryCondensed Matter PhysicsLaserSurfaces Coatings and Filmslaw.inventionSpherical aberrationPhotoemission electron microscopyOpticslawChromatic aberrationFemtosecondMaterials ChemistrybusinessUltrashort pulseSurface and Interface Analysis
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