1. Optical design and performance of a trifocal sinusoidal diffractive intraocular lens
- Author
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Franco Rigato, María S. Millán, Maite Valentino, and Fidel Vega
- Subjects
Physics ,0303 health sciences ,business.industry ,medicine.medical_treatment ,Theoretical models ,Step height ,Intraocular lens ,01 natural sciences ,Article ,Atomic and Molecular Physics, and Optics ,law.invention ,010309 optics ,Lens (optics) ,03 medical and health sciences ,Diffractive lens ,Optics ,Spatial shift ,Intraocular lenses ,law ,0103 physical sciences ,medicine ,business ,030304 developmental biology ,Biotechnology - Abstract
Two theoretical sinusoidal diffractive profile models to build up a trifocal intraocular lens (IOL) are analysed. Topographic features of the diffractive zones such as their shape, step height and radii, as well as the energy efficiency (EE) of the foci, depends on the particular model, and are compared to the ones experimentally measured in a trifocal lens that claims to be designed with a generic sinusoidal diffractive profile: the Acriva Trinova IOL (VSY Biotechnology, The Netherlands). The topography of the IOL is measured by confocal microscopy. The EE is experimentally obtained through-focus with the IOL placed in a model eye. The experimental results match very accurately with one of the theoretical models, the optimum triplicator, once that a spatial shift in the sinusoidal profile is introduced in the model.
- Published
- 2021
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