Add to ORKGAbstract We present data analysis for ocular aberrations of 60 normal eyes measured with a Hartmann-Shack (HS) wavefront sensor (WFS). Aberration measurements were made on-axis and at 5 degree field angles in the nasal, inferior, temporal and superior semi-meridians. Particular attention is given to aberration distributions and possible strategies for aberration correction are discussed. A versatile HS WFS was designed and constructed with features of simultaneous pupil centre determination, off-axis capability, real-time data displays, and efficient lenslet sampling orientation. The subject alignment is achieved by the use of a parallel channel that is recombined with the sensing channel to simultaneously image the eye and the HS spots ont...
The Hartmann⁻Shack wavefront sensor is widely used to measure aberrations in both astronomy an...
AbstractPurposeTo investigate the influence of offsets of the pupil center from the corneal vertex o...
AbstractFurther development of the objective version of the Howland and Howland [1976] Science, 193,...
A versatile Hartmann-Shack (HS) wavefront sensor (WFS) was designed and constructed. Its advantages ...
From both a fundamental and a clinical point of view, it is necessary to know the distribution of th...
The monochromatic aberrations of the human eye limit visual performance to varying degrees. An aberr...
AbstractWe measured the ocular wavefront aberration at six different visible wavelengths (between 45...
The Shack Hartmann wavefront sensor was adapted to measure the aberrations of the human eye in the 1...
This thesis consists of two parts: a report on the use of a binocular Shack-Hartmann (SH) sensor to...
20 pags.The first technique for measuring aberrations in the human eye was described by Tscherning (...
Wavefront aberrations describe the optical imperfections of the eye by measuring the complete refrac...
AbstractSchematic eye models have typically been used to explain the average monochromatic and chrom...
We have designed an ocular aberrometer based on the Hartmann-Shack (HS) type wavefront sensor for us...
Ocular wavefront sensing is vital to improving our understanding of the human eye and to developing ...
Purpose: To test the hypothesis that human eyes have a central tendency to be free of higher-order a...
The Hartmann⁻Shack wavefront sensor is widely used to measure aberrations in both astronomy an...
AbstractPurposeTo investigate the influence of offsets of the pupil center from the corneal vertex o...
AbstractFurther development of the objective version of the Howland and Howland [1976] Science, 193,...
A versatile Hartmann-Shack (HS) wavefront sensor (WFS) was designed and constructed. Its advantages ...
From both a fundamental and a clinical point of view, it is necessary to know the distribution of th...
The monochromatic aberrations of the human eye limit visual performance to varying degrees. An aberr...
AbstractWe measured the ocular wavefront aberration at six different visible wavelengths (between 45...
The Shack Hartmann wavefront sensor was adapted to measure the aberrations of the human eye in the 1...
This thesis consists of two parts: a report on the use of a binocular Shack-Hartmann (SH) sensor to...
20 pags.The first technique for measuring aberrations in the human eye was described by Tscherning (...
Wavefront aberrations describe the optical imperfections of the eye by measuring the complete refrac...
AbstractSchematic eye models have typically been used to explain the average monochromatic and chrom...
We have designed an ocular aberrometer based on the Hartmann-Shack (HS) type wavefront sensor for us...
Ocular wavefront sensing is vital to improving our understanding of the human eye and to developing ...
Purpose: To test the hypothesis that human eyes have a central tendency to be free of higher-order a...
The Hartmann⁻Shack wavefront sensor is widely used to measure aberrations in both astronomy an...
AbstractPurposeTo investigate the influence of offsets of the pupil center from the corneal vertex o...
AbstractFurther development of the objective version of the Howland and Howland [1976] Science, 193,...