Search results for "FFR"

showing 10 items of 1798 documents

White-light imaging with fractal zone plates

2007

We report the achievement of the first images to our knowledge obtained with a fractal zone plates (FraZPs). FraZPs are diffractive lenses characterized by the fractal structure of their foci. This property predicts an improved performance of FraZPs as image forming devices with an extended depth of field and predicts a reduced chromatic aberration under white-light illumination. These theoretical predictions are confirmed experimentally in this work. We show that the polychromatic modulation transfer function of a FraZP affected by defocus is about two times better than one corresponding to a Fresnel zone plate.

DiffractionPhysicsFresnel zonebusiness.industryPhysics::OpticsZone plateAtomic and Molecular Physics and Opticslaw.inventionFractalOpticslawOptical transfer functionChromatic aberrationDepth of fieldbusinessFresnel diffractionOptics Letters
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Polarization holograms and diffraction anisotropy in amorphous chalcogenides

2004

Polarization hologram recording based on the effect of photoinduced anisotropy (PA) is reviewed, focusing on amorphous chalcogenides (ACh). Possible PA mechanisms in ACh are considered. Polarization holographic grating recording in amorphous As?S?Se (a-As?S?Se) films is experimentally studied and analysed in comparison with scalar recording. It is holographically established that linearly polarized 632.8 nm light produces photoinduced anisotropy and the chalcogen related D+, D? centre reorientation and generation mechanism is proposed. It is used to explain the observed peculiarities of polarization (vector) recording in comparison with scalar recording based on photoinduced structural chan…

DiffractionPhysicsHolographic gratingbusiness.industryLinear polarizationHolographyPhysics::OpticsOptical polarizationDiffraction efficiencyPolarization (waves)Atomic and Molecular Physics and Opticslaw.inventionOpticslawbusinessAnisotropyJournal of Optics A: Pure and Applied Optics
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Study of spatial lateral resolution in off-axis digital holographic microscopy

2015

The lateral resolution in digital holographic microscopy (DHM) has been widely studied in terms of both recording and reconstruction parameters. Although it is understood that once the digital hologram is recorded the physical resolution is fixed according to the diffraction theory and the pixel density, still some researches link the resolution of the reconstructed wavefield with the recording distance as well as with the zero-padding technique. Aiming to help avoiding these misconceptions, in this paper we analyze the lateral resolution of DHM through the variation of those two parameters. To support our outcomes, we have designed numerical simulations and experimental verifications. Both…

DiffractionPhysicsImage formationbusiness.industryResolution (electron density)HolographyAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic Materialslaw.inventionAngular spectrum methodOpticslawDigital holographic microscopyElectrical and Electronic EngineeringPhysical and Theoretical ChemistryInvariant (mathematics)businessPixel densityOptics Communications
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Non-Homogeneity of Lateral Resolution in Integral Imaging

2013

We evaluate the lateral resolution in reconstructed integral images. Our analysis takes into account both the diffraction effects in the image capture stage and the lack of homogeneity and isotropy in the reconstruction stage. We have used Monte Carlo simulation in order to assign a value for the resolution limit to any reconstruction plane. We have modelled the resolution behavior. Although in general the resolution limit increases proportionally to the distance to the lens array, there are some periodically distributed singularity planes. The phenomenon is supported by experiments.

DiffractionPhysicsIntegral imagingbusiness.industryIsotropyMonte Carlo methodIterative reconstructionCondensed Matter PhysicsElectronic Optical and Magnetic MaterialsSingularityOpticsHomogeneity (physics)Electrical and Electronic EngineeringbusinessImage resolutionJournal of Display Technology
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Atomic diffraction from nanostructured optical potentials

2002

We develop a versatile theoretical approach to the study of cold-atom diffractive scattering from light-field gratings by combining calculations of the optical near-field, generated by evanescent waves close to the surface of periodic nanostructured arrays, together with advanced atom wavepacket propagation on this optical potential.

DiffractionPhysicsLength scaleCondensed Matter::Quantum GasesScatteringbusiness.industryAtomic Physics (physics.atom-ph)Wave packetPhysics::OpticsFOS: Physical sciencesNear and far fieldPolarization (waves)Atomic and Molecular Physics and OpticsPhysics - Atomic PhysicsOpticsUltracold atomAtomPhysics::Atomic PhysicsAtomic physicsbusiness
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Speckle random coding for 2D super resolving fluorescent microscopic imaging.

2006

In this manuscript we present a novel super resolving approach based upon projection of a random speckle pattern onto samples observed through a microscope. The projection of the speckle pattern is created by coherent illumination of the inspected pattern through a diffuser. Due to local interference of the coherent wave front with itself, a random speckle pattern is superimposed on the sample. This speckle pattern can be scanned over the object. A super-resolved image can be extracted from a temporal sequence of images by appropriate digital processing of the image stream. The resulting resolution is significantly higher than the diffraction limitation of the microscope objective. The new …

DiffractionPhysicsMicroscopebusiness.industryResolution (electron density)General Physics and AstronomySpeckle noiseCell BiologyNumerical aperturelaw.inventionSpeckle patternOpticsStructural BiologylawElectronic speckle pattern interferometryGeneral Materials ScienceProjection (set theory)businessMicron (Oxford, England : 1993)
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High-resolution hard-x-ray photoelectron diffraction in a momentum microscope—the model case of graphite

2019

New journal of physics 21(11), 113031 - (2019). doi:10.1088/1367-2630/ab51fe

DiffractionPhysicsMomentum (technical analysis)MicroscopeX-rayGeneral Physics and AstronomyHigh resolution530law.inventionlawHard X-raysddc:530GraphiteAtomic physics
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Diffractive vector meson production in ultraperipheral heavy ion collisions from the Color Glass Condensate

2014

We compute cross sections for incoherent and coherent diffractive J/$\Psi$ and $\Psi(2S)$ production in ultraperipheral heavy ion collisions. The dipole models used in these calculations are obtained by fitting the HERA deep inelastic scattering data and compared with available electron-proton diffraction measurements. We obtain a reasonably good description of the available ALICE data. We find that the normalization of the ultraperipheral cross section has large model dependence, but the rapidity dependence is more tightly constrained.

DiffractionPhysicsNuclear TheoryFOS: Physical sciencesHERADeep inelastic scatteringColor-glass condensateNuclear physicsNuclear Theory (nucl-th)High Energy Physics - PhenomenologyCross section (physics)DipoleHigh Energy Physics - Phenomenology (hep-ph)High Energy Physics::ExperimentRapidityVector meson
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Backward transition radiation in the extreme ultraviolet region as a tool for the transverse beam profile diagnostic

2014

The present article summarizes the results of two experiments which were performed to study the radiation properties of backward transition radiation (BTR) in the extreme ultraviolet (EUV) region. This wavelength region is of particular interest for transverse beam profile imaging, because the spatial resolution is improved as a result of the reduced contribution in the imaging process of the fundamental diffraction limit. In addition, the influence of coherent effects in the transition radiation emission process, which have been observed in the visible region, might be mitigated. The first experiment, dedicated to the investigation of the BTR angular characteristics, indicates that the rad…

DiffractionPhysicsNuclear and High Energy PhysicsPhysics and Astronomy (miscellaneous)business.industryExtreme ultraviolet lithographySurfaces and InterfacesRadiationRadiation propertiesWavelengthOpticsTransition radiationExtreme ultravioletlcsh:QC770-798ddc:530lcsh:Nuclear and particle physics. Atomic energy. RadioactivitybusinessBeam (structure)Physical Review Special Topics. Accelerators and Beams
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Oblique incidence and polarization effects in coupled gratings.

2012

Oblique incidence and polarization orientation of the input beam have dramatic effects on the spectral response of coupled dielectric waveguide gratings. Coupled gratings with small periodic perturbations can be described as a problem of two coupled resonances at strictly normal incidence, but we find that the device involves four coupled resonances when oblique incidence and polarization effects are included in the analysis. Very small deviations from normal incidence change qualitatively the spectral response and four peaks are observed, whereas only two peaks are present at normal incidence. Polarization misalignments produce a decrease of the reflectance of the resonances at normal inci…

DiffractionPhysicsOnesbusiness.industryGuided-mode resonancePhysics::OpticsÒpticaCoupled mode theoryPolarization (waves)ReflectivityAtomic and Molecular Physics and OpticsOpticsPeriodic perturbationQ factorOblique incidencebusinessOptics express
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