December 2002
Volume 43, Issue 13
ARVO Annual Meeting Abstract  |   December 2002
Spatially Resolved Wave-front Aberrations In Progressive Power Lenses
Author Affiliations & Notes
  • EA Villegas
    Laboratorio de Optica Universidad de Murcia Murcia Spain
  • B Bourdoncle
    Essilor International Saint-Maur France
  • P Artal
    Laboratorio de Optica Universidad de Murcia Murcia Spain
  • Footnotes
    Commercial Relationships    E.A. Villegas, Essilor International F; B. Bourdoncle, Essilor International E; P. Artal, Essilor International F. Grant Identification: MCyT (Spain)_BFM2001-0391
Investigative Ophthalmology & Visual Science December 2002, Vol.43, 951. doi:
  • Views
  • Share
  • Tools
    • Alerts
      This feature is available to authenticated users only.
      Sign In or Create an Account ×
    • Get Citation

      EA Villegas, B Bourdoncle, P Artal; Spatially Resolved Wave-front Aberrations In Progressive Power Lenses . Invest. Ophthalmol. Vis. Sci. 2002;43(13):951.

      Download citation file:

      © ARVO (1962-2015); The Authors (2016-present)

  • Supplements

Abstract: : Purpose: To measure the wave-front aberrations (WA) at different locations in progressive power lenses (PPL) at optical conditions resembling those in real viewing. To evaluate how aberrations in PPL and the older eye combine together and how this is related to vision. Methods: A Hartman-Shack wave-front sensor, specially designed in our laboratory, was used to measure ophthalmic lenses and human eyes either independently or in combination. A micrometric positioner allows to select the precise location and tilt of the PPL to simulate the real angles between visual axis and lens. A variable prism compensator was incorporated to the system to remove prismatic effects of the progressive lens. We obtained WA maps at 20 relevant locations across the PPL. Plano lenses with a power addition of 2 D were studied. The PPLs aberrations were combined with the aberrations in presbyopic subjects (around 50 years old). A number of parameters for each location were obtained: RMS (root mean square) of the WA, Strehl ratio, astigmatism, coma and values of individual higher aberration terms. Complete results were obtained for two pupil diameters: 6 mm and 4 mm. Results: For a 4 mm pupil, the typical RMS values of the PPL were 0.05 and 0.07 microns for the far and near centered zones. In the central part of the corridor, the RMS increases to around 0.1 microns. In these areas of the PPL, third order coma is the dominant aberration. As a comparison, the typical RMS of the aberrations in a 50-years presbyopic eye for this pupil is around 0.25 microns. In areas of the PPL outside the corridor, astigmatism largely increases, while other higher other aberrations remains similar than in the center. As an example, the RMS at locations 3 and 6 mm from the corridor line is around 0.4 and 0.7 microns respectively. Two-dimensional maps of different image quality parameters will be presented. Conclusion: We developed a method to carefully inspect the aberrations of PPL at relevant locations across the lenses for realistic optical conditions. These spatially-resolved aberration maps were combined with the aberrations in presbyopic subjects.

Keywords: 519 physiological optics • 304 accommodation • 309 aging 

This PDF is available to Subscribers Only

Sign in or purchase a subscription to access this content. ×

You must be signed into an individual account to use this feature.