site search


Forgot your password?

Imagine Eyes - Adaptive optics, adapted to eye care

Imagine Eyes provides advanced ophthalmic devices for cellular-level retinal imaging, refractive diagnosis, and vision research.  Our products combine unequalled performance with wide-ranging functionalities to offer clinicians and researchers the technology they need to help preserve and improve vision. Click on the products below to learn more. To reach a salesperson, call us on +33 (0)1 64 86 15 66 or click here to contact us by e-mail.

rtx1™ Adaptive Optics Retinal Camera *   crx1™ Adaptive Optics Visual Simulator *

The rtx1 Adaptive Optics Retinal Camera* is the first compact device that enables ophthalmologists to visualize the retina at the cellular-scale in vivo.
Learn more.


The crx1 Adaptive Optics Visual Simulator* allows customers to simulate the effects of optical or surgical corrections on human vision in a completely non-invasive and reversible manner. Learn more.

AOKit™ - eye   irx3™ Wavefront Aberrometer **

The AOKit - eye is the ideal package for basic and industrial researchers that want to create their own adaptive-optics retinal imaging or vision simulation systems Learn more.


The irx3 Wavefront Aberrometer provides high-precision analysis of refractive errors and accommodation over an extremely large dynamic range. Learn more.

News & upcoming events

(click here to read all the news)

Imagine Eyes' clients to present at the 2010 Wavefront Congress

Print E-mail
Imagine Eyes' clients will present their work in adaptive optics for vision simulation as well as results on the effects of different types of aberrations on vision.


During the conference, the following will be presented: 

  • Expanding Depth of Focus by Modifying Higher-order Aberrations by Karolinne Rocha, MD, PhD
  • Adaptation of Keratoconic Eyes to Their Monochromatic Aberrations by Damien Gatinel, PhD
  • Subjective Blur Limits for Dfferent Aberrations by David Atchison, DSc
  • Using Adaptive Optics to Test Spatial Neural Adaption to Blur by Susana Marcos. PhD
  • Neural Adaptation to Native Spherical Aberration and its Impact on Depth of Focus Geunyoung Yoon, PhD

More information is available at