Add to ORKGWavefront aberrations in human eyes were measured with a Shack-Hartmann wavefront sensor. Based on the measured wavefront aberrations, customized optics, such as phase plates and a customized contact lens, were designed and fabricated to compensate for higher-order wavefront aberrations in human eyes. The fabricated customized optics could successfully correct higher-order aberrations in human eyes and improve retinal image quality, and compensating for such aberrations with customized optics might be a promising technique to improve human vision. PACS numbers: 42.15.Fr, 87.62.+n, 42.66.-
The invention provides methods for designing ophthalmic lenses, and lenses produced by this method, ...
The purpose of this study was to evaluate the performance of a bimorph deformable mirror from AOptix...
This paper addresses the concept, measurement and applications of wave aberrations. The ocular optic...
The Shack Hartmann wavefront sensor was adapted to measure the aberrations of the human eye in the 1...
New objective methods to measure the optical aberrations of the eye are reviewed, in particular the ...
Adaptive optics (AO) is employed for the continuous measurement and correction of ocular aberrations...
Ocular wavefront sensing is vital to improving our understanding of the human eye and to developing ...
The human eye, as our biological vision instrument, contains intrinsic optical defects, referred to ...
Human beings rely heavily on vision for almost all of the tasks that are required in daily life. Bec...
When conducting experiments on the human eye it is sometimes required to correct some form of astigm...
A versatile Hartmann-Shack (HS) wavefront sensor (WFS) was designed and constructed. Its advantages ...
AbstractWe analyze theoretically, by means of both computer simulations and laboratory experiments, ...
The design and testing of an ocular Shack-Hartmann aberrometer is presented. The aberrometer objecti...
The acquisition of high resolution images is essential for the early detection of eye diseases. To a...
PURPOSE: This study measured the changed in visual acuity induced by individual Zernika ocular aberr...
The invention provides methods for designing ophthalmic lenses, and lenses produced by this method, ...
The purpose of this study was to evaluate the performance of a bimorph deformable mirror from AOptix...
This paper addresses the concept, measurement and applications of wave aberrations. The ocular optic...
The Shack Hartmann wavefront sensor was adapted to measure the aberrations of the human eye in the 1...
New objective methods to measure the optical aberrations of the eye are reviewed, in particular the ...
Adaptive optics (AO) is employed for the continuous measurement and correction of ocular aberrations...
Ocular wavefront sensing is vital to improving our understanding of the human eye and to developing ...
The human eye, as our biological vision instrument, contains intrinsic optical defects, referred to ...
Human beings rely heavily on vision for almost all of the tasks that are required in daily life. Bec...
When conducting experiments on the human eye it is sometimes required to correct some form of astigm...
A versatile Hartmann-Shack (HS) wavefront sensor (WFS) was designed and constructed. Its advantages ...
AbstractWe analyze theoretically, by means of both computer simulations and laboratory experiments, ...
The design and testing of an ocular Shack-Hartmann aberrometer is presented. The aberrometer objecti...
The acquisition of high resolution images is essential for the early detection of eye diseases. To a...
PURPOSE: This study measured the changed in visual acuity induced by individual Zernika ocular aberr...
The invention provides methods for designing ophthalmic lenses, and lenses produced by this method, ...
The purpose of this study was to evaluate the performance of a bimorph deformable mirror from AOptix...
This paper addresses the concept, measurement and applications of wave aberrations. The ocular optic...