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RESEARCH PRODUCT
Proposal of a new diffractive corneal inlay to improve near vision in a presbyopic eye
Walter D. FurlanJuan A. MonsoriuVicente FerrandoDiego Montagud-martínezsubject
DiffractionApertureComputer scienceVisual AcuityOptical powerRefraction OcularDiffraction efficiencyModels Biological01 natural sciencesCorneaCorneal Transplantation010309 opticsOpticsOptical transfer function0103 physical sciencesMyopiamedicine03.- Garantizar una vida saludable y promover el bienestar para todos y todas en todas las edadesHumansComputer SimulationElectrical and Electronic EngineeringEngineering (miscellaneous)Vision BinocularInlaymedicine.diagnostic_testbusiness.industryCorneal TopographyPresbyopiaPresbyopiaModels Theoreticalmedicine.diseaseCorneal topographyCorneal inlayAtomic and Molecular Physics and OpticsPhoton sieveIntraocular lensesFISICA APLICADAbusinessOrbital Implantsdescription
[EN] A new class of diffraction-based corneal inlays for treatment of presbyopia is described. The inlay is intended to achieve an improvement of the near focus quality over previous designs. Our proposal is a two-zone hybrid device with separated amplitude and phase areas having a central aperture and no refractive power. An array of micro-holes is distributed on the surface of the inlay conforming a binary photon sieve. In this way, the central hole of the disk contributes to the zero order of diffraction, and the light diffracted by the micro-holes in the peripheral photon sieve produces a real focus for near vision. We employed ray-tracing software to study the performance of the new inlay in the Liou-Brennan model eye. The modulation transfer functions (MTFs) at the distance and near foci, and the area under the MTFs for different object vergences, were the merit functions used in the evaluation. The results were compared with those obtained with previous pure amplitude designs. Additionally, image simulations were performed with the inlays in the model eye to show the good performance of our proposal in improving the quality of the near vision. (C) 2020 Optical Society of America
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2020-05-14 | Applied Optics |