Inverse Hartmann test for radius of curvature measurement in a corneal topography calibration sphere

• Main Authors: Anguiano-Morales, M. (Author), Corral-Martínez, L.F (Author), Jalife-Chavira, J.M (Author), Mendoza-Villegas, P.G (Author), Salas-Peimbert, D.P (Author), Tornero-Martínez, N. (Author), Trujillo-Schiaffino, G. (Author)
• Format: Article
• Language: English
• Published: American Institute of Physics Inc. 2022
• Subjects: article; calibration; Calibration; Calibration spheres; Calibration tests; Corneal topography; Curvature measurement; Curve fitting; Hartmann screen; Hartmann tests; image display; information retrieval; Inverse problems; keratometry; Radii of curvature; Reflective surfaces; simulation; Specular reflections; Spheres; Topography; Virtual images; Wavefronts
• Online Access: View Fulltext in Publisher
• ISBN: 00346748 (ISSN)
• DOI: 10.1063/5.0080572

In this article, the use of a square Hartmann screen test to measure the radius of curvature of a corneal topography calibration test sphere is presented. The proposed technique is based on the image formation principle by specular reflection on convex reflective surfaces. Applying an inverse Hartmann test, a de-magnified virtual image (Hartmanngram) is obtained; considering their own scaled reference screen plate, a zonal wavefront retrieval approach is used and the radius of curvature obtained. Experimental setup along the obtained results is presented. A simulated spherical wavefront is used as a method to evaluate the error in the wavefront reconstruction. Since the measurements of radius of curvature fits in to ISO 10343, through suitable modifications the proposed method is potentially applicable in small F/# convex specular surfaces, as is the case in keratometry and corneal topography measurements. © 2022 Author(s).