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author Gómez-Correa, Jesús E.
Vohnsen, Brian
Pierścionek, Barbara K.
Chávez-Cerda, Sabino
Kling, Sabine
Rozema, Jos J.
Applegate, Raymond A.
Scarcelli, Giuliano
Randleman, J. Bradley
Goncharov, Alexander V.
Fitzpatrick, Amy
Morgan, Jessica I. W.
Roorda, Austin
Atchison, David A.
Trevino, Juan P.
Consejo, Alejandra
Börjeson, Charlie
Lundström, Linda
Bang, Seung Pil
Yoon, Geunyoung
Karnowski, Karol
Kaluzny, Bartlomiej J.
Grulkowski, Ireneusz
Barbero, Sergio
Artal, Pablo
Tabernero, Juan
Kollbaum, Pete
Thébault, Stéphanie C.
author_facet Gómez-Correa, Jesús E.
Vohnsen, Brian
Pierścionek, Barbara K.
Chávez-Cerda, Sabino
Kling, Sabine
Rozema, Jos J.
Applegate, Raymond A.
Scarcelli, Giuliano
Randleman, J. Bradley
Goncharov, Alexander V.
Fitzpatrick, Amy
Morgan, Jessica I. W.
Roorda, Austin
Atchison, David A.
Trevino, Juan P.
Consejo, Alejandra
Börjeson, Charlie
Lundström, Linda
Bang, Seung Pil
Yoon, Geunyoung
Karnowski, Karol
Kaluzny, Bartlomiej J.
Grulkowski, Ireneusz
Barbero, Sergio
Artal, Pablo
Tabernero, Juan
Kollbaum, Pete
Thébault, Stéphanie C.
contents The field of visual and physiological optics is undergoing continuous significant advancements, driven by a deeper understanding of the human visual system and the development of cutting-edge optical technologies. This Roadmap, authored by leading experts, delves into critical areas such as corneal biomechanical properties, keratoconus, and advancements in corneal imaging and elastography. It explores the intricate structure-function relationship within the eye lens, offering new perspectives through lens models and ray tracing techniques. The document also covers advancements in retinal imaging, highlighting the current state and future directions, and the role of adaptive optics in evaluating retinal structure and function in both healthy and diseased eyes. Furthermore, it addresses the modelling of ocular surfaces using different mathematical functions and examines the factors affecting peripheral image quality in the human eye, emphasizing the importance of these aspects in visual performance. Additional topics include schematic and functional models of the human eye, the impact of optical and chromatic aberrations, and the design of contact, and intraocular lenses. Finally, the Roadmap addresses the intersection of neurosciences with vision health, presenting a comprehensive overview of current research and future trends aimed at improving visual health and optical performance. Ultimately, this Roadmap aims to serve as a valuable resource for ophthalmologists, optometrists, vision scientists, and engineers dedicated to advancing the field of visual and physiological optics.
format Preprint
id arxiv_https___arxiv_org_abs_2411_14606
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Roadmap on Advances in Visual and Physiological Optics
Gómez-Correa, Jesús E.
Vohnsen, Brian
Pierścionek, Barbara K.
Chávez-Cerda, Sabino
Kling, Sabine
Rozema, Jos J.
Applegate, Raymond A.
Scarcelli, Giuliano
Randleman, J. Bradley
Goncharov, Alexander V.
Fitzpatrick, Amy
Morgan, Jessica I. W.
Roorda, Austin
Atchison, David A.
Trevino, Juan P.
Consejo, Alejandra
Börjeson, Charlie
Lundström, Linda
Bang, Seung Pil
Yoon, Geunyoung
Karnowski, Karol
Kaluzny, Bartlomiej J.
Grulkowski, Ireneusz
Barbero, Sergio
Artal, Pablo
Tabernero, Juan
Kollbaum, Pete
Thébault, Stéphanie C.
Optics
The field of visual and physiological optics is undergoing continuous significant advancements, driven by a deeper understanding of the human visual system and the development of cutting-edge optical technologies. This Roadmap, authored by leading experts, delves into critical areas such as corneal biomechanical properties, keratoconus, and advancements in corneal imaging and elastography. It explores the intricate structure-function relationship within the eye lens, offering new perspectives through lens models and ray tracing techniques. The document also covers advancements in retinal imaging, highlighting the current state and future directions, and the role of adaptive optics in evaluating retinal structure and function in both healthy and diseased eyes. Furthermore, it addresses the modelling of ocular surfaces using different mathematical functions and examines the factors affecting peripheral image quality in the human eye, emphasizing the importance of these aspects in visual performance. Additional topics include schematic and functional models of the human eye, the impact of optical and chromatic aberrations, and the design of contact, and intraocular lenses. Finally, the Roadmap addresses the intersection of neurosciences with vision health, presenting a comprehensive overview of current research and future trends aimed at improving visual health and optical performance. Ultimately, this Roadmap aims to serve as a valuable resource for ophthalmologists, optometrists, vision scientists, and engineers dedicated to advancing the field of visual and physiological optics.
title Roadmap on Advances in Visual and Physiological Optics
topic Optics
url https://arxiv.org/abs/2411.14606