Abstract: The invention relates to cylindrical tunable fluidic lenses. The cylindrical optical power of the lenses may be continuously tuned within at least ±10 diopters, without inducing any significant spherical aberration, or any other significant aberrations. The lenses feature a geometry that produces minimal or no spherical defocus. These cylindrical tunable fluidic lenses could be used to induce and/or correct cylindrical optical aberrations in adaptive optical systems, particularly in ophthalmologic applications related to objective and automatic assessment of the refractive error of the eye, without the need of receiving feedback from the subjects.
Type:
Grant
Filed:
May 31, 2023
Date of Patent:
January 14, 2025
Assignees:
ARIZONA BOARD OF REGENTS ON BEHALF OF THE UNIVERSITY OF ARIZONA, ICRX, INC.
Inventors:
Erol Ozgur, Daniel Reetz, Farhad Akhoundi, Gholam Peyman
Abstract: The invention relates to cylindrical tunable fluidic lenses. The cylindrical optical power of the lenses may be continuously tuned within at least ±10 diopters, without inducing any significant spherical aberration, or any other significant aberrations. The lenses feature a geometry that produces minimal or no spherical defocus. These cylindrical tunable fluidic lenses could be used to induce and/or correct cylindrical optical aberrations in adaptive optical systems, particularly in ophthalmologic applications related to objective and automatic assessment of the refractive error of the eye, without the need of receiving feedback from the subjects.
Type:
Application
Filed:
May 31, 2023
Publication date:
September 28, 2023
Applicants:
Arizona Board of Regents on Behalf of the University of Arizona, iCRx, Inc.
Inventors:
EROL OZGUR, DANIEL REETZ, FARHAD AKHOUNDI, GHOLAM PEYMAN