Melanie Campbell
Melanie Campbell
Verified email at
TitleCited byYear
Adaptive optics scanning laser ophthalmoscopy
A Roorda, F Romero-Borja, WJ Donnelly III, H Queener, TJ Hebert, ...
Opt. Express 10 (9), 405-412, 2002
Presbyopia and the optical changes in the human crystalline lens with age
A Glasser, MCW Campbell
Vision research 38 (2), 209-229, 1998
Biometric, optical and physical changes in the isolated human crystalline lens with age in relation to presbyopia
A Glasser, MCW Campbell
Vision research 39 (11), 1991-2015, 1999
Measurement of refractive index in an intact crystalline lens
MCW Campbell
Vision research 24 (5), 409-415, 1984
Multifocal lenses compensate for chromatic defocus in vertebrate eyes
RHH Kröger, MCW Campbell, RD Fernald, HJ Wagner
Journal of Comparative Physiology A 184 (4), 361-369, 1999
The optical transverse chromatic aberration on the fovea of the human eye
P Simonet, MCW Campbell
Vision Research 30 (2), 187-206, 1990
An analytic, gradient index schematic lens and eye for the rat which predicts aberrations for finite pupils
MCW Campbell, A Hughes
Vision research 21 (7), 1129-1148, 1981
Psychophysical measurement of the blur on the retina due to optical aberrations of the eye
MCW Campbell, EM Harrison, P Simonet
Vision research 30 (11), 1587-1602, 1990
Refractive index distribution and spherical aberration in the crystalline lens of the African cichlid fish Haplochromis burtoni
RHH Kröger, MCW Campbell, R Munger, RD Fernald
Vision research 34 (14), 1815-1822, 1994
Slope-based eccentric photorefraction: theoretical analysis of different light source configurations and effects of ocular aberrations
A Roorda, MCW Campbell, WR Bobier
JOSA A 14 (10), 2547-2556, 1997
The Julius F. Neumueller Award in Optics, 1989: change of pupil centration with change of illumination and pupil size
Optometry & Vision Science 69 (2), 129-136, 1992
Polarization properties of the in vitro old human crystalline lens
JM Bueno, MCW Campbell
Ophthalmic and Physiological Optics 23 (2), 109-118, 2003
Confocal scanning laser ophthalmoscopy improvement by use of Mueller-matrix polarimetry
JM Bueno, MCW Campbell
Optics letters 27 (10), 830-832, 2002
The development of the crystalline lens is sensitive to visual input in the African cichlid fish,< i> Haplochromis burtoni</i>
RHH Kröger, MCW Campbell, RD Fernald
Vision research 41 (5), 549-559, 2001
Geometrical theory to predict eccentric photorefraction intensity profiles in the human eye
A Roorda, MCW Campbell, WR Bobier
JOSA A 12 (8), 1647-1656, 1995
Vision science and adaptive optics, the state of the field
S Marcos, JS Werner, SA Burns, WH Merigan, P Artal, DA Atchison, ...
Vision research 132, 3-33, 2017
Improved scanning laser fundus imaging using polarimetry
JM Bueno, JJ Hunter, CJ Cookson, ML Kisilak, MCW Campbell
JOSA A 24 (5), 1337-1348, 2007
Infrared and Raman spectra of crystalline sulfur dioxide
A Anderson, MCW Campbell
The Journal of Chemical Physics 67 (9), 4300-4302, 1977
Optical constancy of the chick lens during pre-and post-hatching ocular development.
JG Sivak, LA Ryall, J Weerheim, MC Campbell
Investigative ophthalmology & visual science 30 (5), 967-974, 1989
Dispersion and longitudinal chromatic aberration of the crystalline lens of the African cichlid fish< i> Haplochromis burtoni</i>
RHH Kröger, MCW Campbell
JOSA A 13 (12), 2341-2347, 1996
The system can't perform the operation now. Try again later.
Articles 1–20