Search results for "LENS"

showing 10 items of 948 documents

Recent Advances in 3D Structured Illumination Microscopy

2018

In structured illumination microscopy (SIM) the sample under investigation is illuminated using a structured illumination (SI) pattern. This SI pattern encodes high spatial frequencies of fine features within the sample, which usually are not transferred by the conventional three-dimensional (3D) optical transfer function (OTF) of the imaging system and fills the missing cone of frequencies in the OTF for better discrimination of the out-of-focus light. Thereby, SIM provides super-resolution (SR) performance beyond the diffraction limit and optical-sectioning (OS) capability with the use of data post-processing approaches. 3D structured patterns that include lateral and axial variations in …

DiffractionMaterials sciencebusiness.industry02 engineering and technologyWollaston prism021001 nanoscience & nanotechnology01 natural sciencesNoise (electronics)law.invention010309 opticsLens (optics)WavelengthOpticslawOptical transfer function0103 physical sciencesSpatial frequency0210 nano-technologybusinessFrequency modulation2018 20th International Conference on Transparent Optical Networks (ICTON)

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Dispersion-compensated Lau-like processor

2004

We present a diffractive lens-based optical assembly with which to achieve high-contrast Lau-like interferential fringes with totally incoherent illumination.

DiffractionMaterials sciencebusiness.industryPhysics::OpticsDiffraction efficiencyPhysical opticsOpticsDiffractive lensDispersion (optics)Chromatic aberrationOptoelectronicsbusinessDiffraction gratingFresnel diffractionFrontiers in Optics 2004/Laser Science XXII/Diffractive Optics and Micro-Optics/Optical Fabrication and Testing

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White-light-modified Talbot array illuminator with a variable density of light spots.

2008

A flexible array illuminator, comprising only two conventional optical elements, with a variable density of bright white-light spots is presented. The key to our method is to obtain with a single diffractive lens an achromatic version of different fractional Talbot images, produced by free-space propagation, of the amplitude distribution at the back focal plane of a periodic refractive microlens array under a broadband point-source illumination. Some experimental results of our optical procedure are also shown.

DiffractionMicrolensPhysicsbusiness.industryMaterials Science (miscellaneous)Physics::OpticsDiffraction efficiencyIndustrial and Manufacturing EngineeringPtychographylaw.inventionCardinal pointOpticsAchromatic lenslawTalbot effectOptoelectronicsBusiness and International ManagementbusinessFresnel diffractionApplied optics

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Fractal-structured multifocal intraocular lens

2017

[EN] In this work, we present a new concept of IOL design inspired by the demonstrated properties of reduced chromatic aberration and extended depth of focus of Fractal zone plates. A detailed description of a proof of concept IOL is provided. The result was numerically characterized, and fabricated by lathe turning. The prototype was tested in vitro using dedicated optical system and software. The theoretical Point Spread Function along the optical axis, computed for several wavelengths, showed that for each wavelength, the IOL produces two main foci surrounded by numerous secondary foci that partially overlap each other for different wavelengths. The result is that both, the near focus an…

DiffractionOptical PhenomenaFocus (geometry)VisionSocial Scienceslcsh:MedicinePhysics::Optics01 natural sciences0302 clinical medicineMedicine and Health SciencesPsychologylcsh:ScienceLens (Anatomy)PhysicsMultidisciplinaryPhysicsOphthalmic ProceduresCataract SurgeryOptical LensesWavelengthFractalsOptical EquipmentPhysical SciencesEngineering and TechnologySensory PerceptionAnatomyDiffractionResearch ArticlePoint spread functionOcular AnatomyGeometryEquipmentSurgical and Invasive Medical ProceduresIn Vitro TechniquesProsthesis DesignProof of Concept Study010309 optics03 medical and health sciencesFractalOpticsOcular SystemOptical transfer function0103 physical sciencesChromatic aberrationPrototypesComputer Simulationbusiness.industrylcsh:RBiology and Life SciencesModels TheoreticalMultifocal Intraocular LensesOptical axisTechnology DevelopmentFISICA APLICADAWaves030221 ophthalmology & optometryEyeslcsh:QbusinessHeadMathematicsNeuroscience

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Fabrication of Diffractive Optics: Surface Reliefs and Artificial Dielectrics

1997

After a period of fundamental theoretical research, the field of diffractive optics is now reaching a time of assessment, when we can define the useful limits of each design procedure. Selecting a suitable procedure derives from a compromise between several factors, including design time, desired optical efficiency, and precision. A major consideration in finding such a compromise has been, and still is today, the availability of technologies which can realize the design by generating the diffracting structure with assigned tolerances.

DiffractionOptical efficiencySurface (mathematics)MicrolensFabricationMaterials scienceOpticsbusiness.industryElectronic engineeringTheoretical researchbusinessArtificial dielectricsField (computer science)

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Devil’s vortex-lenses

2009

In this paper we present a new kind of vortex lenses in which the radial phase distribution is characterized by the "devil's staircase" function. The focusing properties of these fractal DOEs coined Devil's vortex-lenses are analytically studied and the influence of the topological charge is investigated. It is shown that under monochromatic illumination a vortex devil's lens give rise a focal volume containing a delimited chain of vortices that are axially distributed according to the self-similarity of the lens.

DiffractionOptics and PhotonicsLightOptical TweezersAstrophysics::Cosmology and Extragalactic Astrophysicslaw.inventionFractalOpticslawCondensed Matter::SuperconductivityTopological quantum numberPhysicsModels Statisticalbusiness.industryEquipment DesignModels TheoreticalAtomic and Molecular Physics and OpticsVortexLens (optics)FractalsClassical mechanicsMonochromatic colorAxial symmetrybusinessOptical vortexAlgorithmsOptics Express

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Devil's lenses.

2007

In this paper we present a new kind of kinoform lenses in which the phase distribution is characterized by the “devil’s staircase” function. The focusing properties of these fractal DOEs coined devil’s lenses (DLs) are analytically studied and compared with conventional Fresnel kinoform lenses. It is shown that under monochromatic illumination a DL give rise a single fractal focus that axially replicates the self-similarity of the lens. Under broadband illumination the superposition of the different monochromatic foci produces an increase in the depth of focus and also a strong reduction in the chromaticity variation along the optical axis.

DiffractionPhysicsDepth of focusKinoformbusiness.industryPhysics::OpticsAtomic and Molecular Physics and Opticslaw.inventionOptical axisLens (optics)Superposition principleOpticsFractallawMonochromatic colorbusinessOptics express

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Broadband focused waves with compensated spatial dispersion: transverse versus axial balance.

2007

We determine the constraints an ABCD optical system must verify to achieve, at the focal region, broadband waves with compensated spatial dispersion either along the optical axis, called on-axis isodiffracting fields, or in the lateral direction, here named in-plane isodiffracting beams. An optical configuration is identified for generating both types of achromatic broadband focused wave fields. An experimental verification is also provided.

DiffractionPhysicsPoint spread functionbusiness.industryPhysics::OpticsAtomic and Molecular Physics and Opticslaw.inventionOptical axisTransverse planeOpticsAchromatic lenslawDispersion (optics)BroadbandbusinessBeam splitterOptics letters

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Fractional Fourier transforms, symmetrical lens systems, and their cardinal planes

2007

We study the relation between optical lens systems that perform a fractional Fourier transform (FRFT) with the geometrical cardinal planes. We demonstrate that lens systems symmetrical with respect to the central plane provide an exact FRFT link between the input and output planes. Moreover, we show that the fractional order of the transform has real values between 0 and 2 when light propagation is produced between principal planes and antiprincipal planes, respectively. Finally, we use this new point of view to design an optical lens system that provides FRFTs with variable fractional order in the range (0,2) without moving the input and output planes.

DiffractionPhysicsRay transfer matrix analysisGeometrical opticsbusiness.industryAtomic and Molecular Physics and OpticsFractional Fourier transformElectronic Optical and Magnetic Materialslaw.inventionLens (optics)symbols.namesakeOpticsFourier transformlawsymbolsPoint (geometry)Computer Vision and Pattern RecognitionbusinessMatrix methodJournal of the Optical Society of America A

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Diffraction-managed superlensing using metallodielectric heterostructures

2012

We show that subwavelength diffracted wave fields may be managed inside multilayered plasmonic devices to achieve ultra-resolving lensing. For that purpose we first transform both homogeneous waves and a broad band of evanescent waves into propagating Bloch modes by means of a metal/dielectric (MD) superlattice. Beam spreading is subsequently compensated by means of negative refraction in a plasmon-induced anisotropic effective-medium that is cemented behind. A precise design of the superlens doublet may lead to nearly aberration-free images with subwavelength resolution in spite of using optical paths longer than a wavelength. This research was funded by the Spanish Ministry of Economy and…

DiffractionPhysicsSuperlensbusiness.industrySuperlatticePhysics::OpticsHeterojunctionDielectricImagingWavelengthPlasmonic devicesOpticsNegative refractionSuper-resolutionOptoelectronicsbusinessPlasmonÓptica

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