Abstract: The invention relates to a system for projecting an optical pattern of interest into a human eye in a selective manner. In particular, the invention relates to a system for supporting the identification of an optical pattern of interest and to project said pattern of interest onto a predefined retinal area of the human eye. Accordingly, a system (10) for projecting an optical pattern of interest (28) onto a predefined retinal area (22) of a human eye is suggested, comprising a camera (12) for capturing an image, a projector device (14) for projecting a light beam (20) into a human eye based on an inputted signal, and a processor (16) being in communication with the camera (12) and the projector device (14), the processor (16) being adapted to convert a portion of the captured image into a corresponding signal and to output said signal to the projector device (14).
Type:
Application
Filed:
August 10, 2023
Publication date:
March 12, 2026
Applicant:
La Science SAS
Inventors:
Guillaume Buc, Jacques Feldmar, Giulia Lia Beatrice Spampinato
Abstract: The present invention pertains to a projector device for projecting a light beam onto a retina of a human eye, comprising a projector for projecting a light beam from the exterior of a human eye through a pupil of the eye, wherein the projector is configured such that an exit pupil diameter of the light beam is set smaller than an eye pupil diameter of the eye, a corresponding method, and a device comprising such a projector device.
Type:
Application
Filed:
May 16, 2025
Publication date:
September 4, 2025
Applicant:
La Science SAS
Inventors:
Martin Deterre, Ralf Hornig, Emmanuel Simon, Eric Abhamon
Abstract: The present invention pertains to a system for projecting a pattern of interest onto a retinal area of a human eye, containing a carrying frame for being worn by a patient, a camera for capturing an image, a projector device for projecting a pulsed light beam reflecting a pattern of interest into a human eye, and a processor device being in communication with the camera and the projector device, wherein the processor device is adapted for converting the image captured by the camera into the pattern of interest being basis for the pulsed light beam, wherein the projector device and the camera are attached to the carrying frame.
Type:
Grant
Filed:
March 27, 2020
Date of Patent:
September 2, 2025
Assignee:
La Science SAS
Inventors:
Guillaume Buc, Xavier Beuque, Vincent Bismuth, Martin Deterre
Abstract: The disclosure refers to a photosensitive pixel structure that includes a substrate layer and an interface layer. The interface layer is provided at least partially on a first surface of the substrate layer and the interface layer at least partially includes a first material layer and the interface layer at least partially includes a second material layer covering the first material layer such that the first material layer is at least partially sandwiched between the second material layer and the substrate. The disclosure further refers to an array and an implant that includes a pixel structure and a method for providing a pixel structure.
Abstract: The present invention pertains to a projector device for projecting a light beam onto a retina of a human eye, comprising a projector for projecting a light beam from the exterior of a human eye through a pupil of the eye, wherein the projector is configured such that an exit pupil diameter of the light beam is set smaller than an eye pupil diameter of the eye, a corresponding method, and a device comprising such a projector device.
Type:
Grant
Filed:
March 27, 2020
Date of Patent:
June 24, 2025
Assignee:
La Science SAS
Inventors:
Martin Deterre, Ralf Hornig, Emmanuel Simon, Eric Abhamon
Abstract: The disclosure refers to a photosensitive pixel structure that includes a substrate layer and an interface layer. The interface layer is provided at least partially on a first surface of the substrate layer and the interface layer at least partially includes a first material layer and the interface layer at least partially includes a second material layer covering the first material layer such that the first material layer is at least partially sandwiched between the second material layer and the substrate. The second material layer has a thickness chosen from a range of 200 nm-600 nm, 300 nm-500 nm, or 320 nm-450 nm. The disclosure further refers to an array and an implant that includes a pixel structure and a method for providing a pixel structure.