Search results for "Wavefront sensor"

showing 7 items of 7 documents

Precision of a commercial hartmann-shack aberrometer: limits of total wavefront laser vision correction.

2012

Purpose To assess the intrasession and intersession precision of higher-order aberrations (HOAs) measured using a commercial Hartmann-Shack wavefront sensor (Zywave; Bausch & Lomb) in refractive surgery candidates. Design Prospective, experimental study of a device. Methods To analyze intrasession repeatability, 1 experienced examiner measured 30 healthy eyes 5 times successively. To study intersession reproducibility, the same clinician obtained measurements from another 30 eyes in 2 consecutive sessions at the same time of day 1 week apart. Results For intrasession repeatability, excellent intraclass correlation coefficients (ICCs) were obtained for total ocular aberrations, total HOAs, a…

AdultMaleCorneal Wavefront AberrationIntraclass correlationZernike polynomialsmedicine.medical_treatmentRefraction Ocularsymbols.namesakeYoung AdultOpticsRefractive surgeryAberrometrymedicineHumansProspective StudiesMathematicsWavefrontObserver VariationReproducibilitybusiness.industryAberrometryReproducibility of ResultsRepeatabilityWavefront sensorMiddle AgedRefractive ErrorsOphthalmologysymbolsOptometryFemalebusinessAmerican journal of ophthalmology

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Accommodative stimulus-response curves to low-pass filtered natural images

2018

To assess how the monocular steady-state accommodative stimulus-response curve is modified when viewing low-pass filtered natural images. Eighteen adult subjects participated in the study. The accommodative stimulus-response curve was objectively assessed by means of a Hartmann-Shack wavefront sensor. Measurements were taken at different accommodative demands. Target images were low-pass filtered versions of a natural image that were obtained applying different digital spatial filters that limited the spatial frequency content of the natural image. Cutoff spatial frequencies were set at 30, 21, and 15 cycles per degree (cy/deg). Mean data obtained for each target were fitted to linear model…

AdultMaleLow-pass filterRefraction Ocular050105 experimental psychologyYoung Adult03 medical and health sciencesCellular and Molecular Neuroscience0302 clinical medicineOpticsVision MonocularLinear regressionMyopiaHumansCutoff0501 psychology and cognitive sciencesMathematicsAnalysis of covarianceMonocularbusiness.industry05 social sciencesLinear modelAccommodation OcularWavefront sensorSensory SystemsOphthalmologySpace Perception030221 ophthalmology & optometryFemaleSpatial frequencybusinessPhotic StimulationGraefe's Archive for Clinical and Experimental Ophthalmology

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WAVEFRONT TESTER: Un nuevo laboratorio virtual para el estudio de los sensores frente de onda.

2016

[EN] We present a new virtual laboratory developed with MatlabcGUI (Graphical User Interface) used toteach di erent aberration eff ects in the "Tecnologi a de Sensores Optoelectr onicos" at "Escuela T ecnicaSuperior de Ingenier a del Diseño" of the Universitat Polit ecnica de Val encia. The objective of this lab is to provide a computer tool to study the working principle of a Shack Hartman sensor and the parameters that determine the dynamic range of the same. Some examples made with di fferent aberrations (defocus,astigmatism, coma) and for diff erent sensor con gurations are presented.

MATLABAberraciones02 engineering and technologyGeneral MedicineGeneral ChemistryWavefront sensors01 natural scienceslcsh:Education (General)aberraciones sensores de frente de onda MATLAB.010309 opticsAberrations020210 optoelectronics & photonics0103 physical sciencesSensores de frente de onda0202 electrical engineering electronic engineering information engineeringlcsh:L7-991Modelling in Science Education and Learning

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Wavefront sensing using a graphical user interface

2015

Contract grant sponsor: Ministerio de Economia y Competividad; Contract grant number: FIS2011-23175; Contract grant sponsor: Generalitat Valenciana; Contract grant number: PROMETEOII/2014/072; Contract grant sponsor: Universitat de Valencia; Contract grant number: UV-SFPIE_DINV14-222801

WavefrontGeneral Computer Sciencebusiness.industryComputer science05 social sciencesGeneral Engineering050301 educationWavefront sensor01 natural sciencesEducation010309 opticsComputer graphics (images)0103 physical sciencesbusiness0503 educationGraphical user interfaceComputer Applications in Engineering Education

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Dynamic wavefront sensing and correction with low-cost twisted nematic spatial light modulators

2010

Off-the-shelf spatial light modulators (SLMs), like twisted nematic liquid crystal displays (TNLCDs) used in projection systems, show some interesting features such as high spatial resolution, easy handling, wide availability, and low cost. We describe a compact adaptive optical system using just one TNLCD to measure and compensate optical aberrations. The current system operates at a frame rate of the order of 10 Hz with a four-level codification scheme. Wavefront estimation is performed through conventional Hartmann–Shack sensing architecture. The system has proved to work properly with a maximum rms aberration of 0. 76 μm and wavefront gradient of 50 rad/mm at a wavelength of 514 nm. The…

WavefrontMicrolensHistoryMaterials scienceSpatial light modulatorbusiness.industryWavefront sensorDiffraction efficiencyWaveplateComputer Science ApplicationsEducationWavelengthOpticsLiquid crystalOptoelectronicsbusinessJournal of Physics: Conference Series

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Optical phase retrieval using four rotated versions of a single binary amplitude modulating mask

2019

In recent years, phase retrieval methods recovering the phase of an object from coded diffraction patterns have gained popularity. A numerical phase retrieval method called PhaseLift that recovers the phase of an object from a very limited number of coded diffraction patterns was recently proposed. Performance of PhaseLift has been analyzed for different types and the number of masks modulating an object. We present a unique application of PhaseLift that uses four rotations of a single mask, modulating only the amplitude of an object. In simulations, a phase screen with the root-mean-square (RMS) value 0.294 μm was used as the test object. The RMS value of the retrieved phase screen after …

WavefrontZernike polynomialsComputer scienceMechanical EngineeringPhase (waves)Astronomy and AstrophysicsWavefront sensor01 natural sciencesElectronic Optical and Magnetic Materials010309 opticssymbols.namesakeAmplitudeSpace and Planetary ScienceControl and Systems Engineering0103 physical sciencessymbolsPhase retrieval010303 astronomy & astrophysicsInstrumentationAlgorithmSmoothingPhase-shift keyingJournal of Astronomical Telescopes, Instruments, and Systems

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Drifts in real-time partial wavefront correction and how to avoid them

2017

In visual experiments that require real-time partial correction of wavefront aberrations, small errors occur that accumulate over time and lead to drifts in Zernike coefficients of the uncorrected aberrations. A simple algorithm that does not require the inclusion of an additional optical path to obtain independent measurements of the eye's aberrations is described here, and its effectiveness in preventing these drifts is demonstrated.

Wavefrontgenetic structuresComputer sciencebusiness.industryZernike polynomialsMaterials Science (miscellaneous)Wavefront sensor01 natural scienceseye diseasesIndustrial and Manufacturing EngineeringDeformable mirror010309 optics03 medical and health sciencessymbols.namesake0302 clinical medicineOpticsOptical path0103 physical sciences030221 ophthalmology & optometrysymbolssense organsBusiness and International ManagementbusinessAdaptive opticsApplied Optics

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