Articles in Refereed Journals

+students and postdocs of Campbell

+Bueno, J. M., +King, D., Campbell, M. C. W., and Simonet, P. (2002). Myopia and monochromatic aberrations in young adult subjects. Vision Research Submitted.

+Bueno, J. M. and Campbell, M. C. W. (2002). Polarization properties of the in vitro human crystalline lens. Vision Research Submitted.

Campbell, M.C.W., Hamam, H., Brunette, I. and Simonet, P. (2002). Optical quality of the eye following excimer laser refractive surgery for the correction of myopia. Submitted, under revision.

Campbell, M.C.W., Brunette, I., Fontaine, N. and Zhi, H.S. (2002). Optical changes to the cornea after specular microscopy measurements. Submitted, under revision.

Roorda, A., Romero-Borja, F., Donnelly, W.J., Queener, H., Hebert, T., and Campbell, M.C.W. (2002). Adaptive optics scanning laser ophthalmoscopy. Optics Express, 10, 405-412.

+Bueno, J. M. and Campbell, M.C.W. (2002). Confocal scanning laser ophthalmoscopy improvement by using Mueller-matrix polarimetry. Optics Letters, 27, 830-832.

Leat, S.J., Campbell, M.C.W. Woo, G.C. and Lankin, A. (2001). Tracking of changes in fixation in the presence of prism using a scanning laser ophthalmoscope. Clinical and Experimental Optometry 84, 132-138.

+Kroger R.H., Campbell M.C.W. and Fernald R.D. (2001). The development of the crystalline lens is sensitive to visual input in the African cichlid fish, Haplochromis burtoni. Vision Research, 41, 549-59.

Campbell, M. C. W. (2000). Contributions to the optical quality of the eye: Implications for "perfect" optical correction. Trends in Optics and Photonics Series, Optical Society of America, 35, pg.131-139. Invited.

+Kröger, R.H.H., Campbell, M.C.W., Fernald, R.D. and Wagner, H.J. (1999). Multifocal lenses improve spatial resolution of colour vision in eyes with wide pupillary apertures. J. Comp. Physiol. A, 184, 361-9.

+Glasser, A. and Campbell, M.C.W. (1999). Optical and physical changes in the isolated human crystalline lens with age in relation to presbyopia. Vision Research, 39, 1991-2015.

+Glasser, A. and Campbell, M.C.W. (1999). On potential causes of presbyopia a reply. Vision Research, 39, 1267-1272.

+Roorda, A., Bobier, W.R. and Campbell, M.C.W. (1998). The infrared eccentric photo optometer. Vision Research, 38, 1913 1924.

+Glasser, A. and Campbell, M.C.W. (1998). Presbyopia and the optical changes in the human crystalline lens with age. Vision Research, 38, 209 229.

+Roorda, A., Campbell, M.C.W. and Bobier, W.R. (1997). Modelling different light source configurations for slope based eccentric photorefractors. Journal Optical Society of America, A, 14, 2547 2556.

+Kroeger, R.H.H. and Campbell, M.C.W. (1996). Dispersion and longitudinal chromatic aberration of the crystalline lens of the African cichlid fish Haplochromis burtoni. J. Opt. Soc. Am.,A, 13, 2341-2347.

+Roorda, A., Campbell, M.C.W. & Bobier, W.R. (1995). A Geometrical theory to predict eccentric photorefraction intensity profiles in the human eye. Journal of the Optical Society of America, A, 12, 1647 1656.

Campbell, M.C.W., Bobier, W.R. and +Roorda, A. (1995). The effect of monochromatic aberrations on photorefractive patterns. Journal of the Optical Society of America A, 12, 1637 1646.

+Kroeger, R., Campbell, M.C.W., Munger, R. and Fernald, R. (1994). Refractive index distribution and spherical aberration in the crystalline lens of the African cichlid fish Haplochromis burtoni. Vision Res., 34, 1815 1823.

Sivak, J.G., West, J.A. and Campbell, M.C.W. (1994). Growth and optical development of the ocular lens of the squid. Sepioteuthis Lessonasa. Vision Res., 34, 2177 2188.

Bobier, W.R., Campbell, M.C.W. and +Hinch, M. (1992). The influence of chromatic aberration on the static accommodative response. Vision Research, 32, 823 832.

Bobier, W.R., Campbell, M.C.W., +McCreary, C.R., Power, A.M., Yang, K.C. (1992). Coaxial photorefractive methods: an optical analysis. Applied Optics, 31, 3601 3615.

Bobier, W.R., Campbell, M.C.W., +McCreary, C.R., Power, A.M. and Yang, K.C. (1992). Geometrical optical analysis of photorefractive methods. Ophthal. Physiol. Opt., 12, 147 152.

+Wilson, M.A., Campbell, M.C.W. and +Simonet, P. (1992) The Julius F. Neumueller Award in Optics, 1989: change of pupil centration with change of illumination and pupil size. Optometry and Vision Science 69, 129 136.

Campbell, M.C.W. and +Simonet, P. (1990). Video monitoring of the principal ray of a Maxwellian view for the measurement of optical aberrations, the Stiles Crawford effect, retinal resolution and for investigating colour vision. Applied Optics, 29, 1420 1426.

+Simonet, P. and Campbell, M.C.W. (1990). The effect of illuminance on the direction of chromostereopsis and transverse chromatic aberration observed with natural pupils. Ophthalmic and Physiological Optics, 10, 271 279.

+Simonet, P. and Campbell, M.C.W. (1990). The optical transverse chromatic aberration on the fovea of the human eye. Vision Research, 30, 187 206.

Campbell, M.C.W., +Ellison, P.J., Strong, J.G. and Lovasik, J.V. (1989). Unexpectedly large enhancement of a severely constricted field with reversed Galilean telescopes. Am. J. Optom & Physiol. Optics, 66, 339 242.

Sivak, J.G., +Ryall, L.A., Weerheim, J.S. and Campbell, M.C.W. (1989). Optical constancy of the chick lens during pre and post hatching ocular development. Investigative Ophthalmology and Visual Science, 30, 967 974.

Kothe, A.C., Lovasik, J.V. and Campbell, M.C.W. (1987). Variation of dark focus of accommodation with laser speckle exposure duration. Ophthalmic & Physiological Optics, 7, 143 148.

Campbell, M.C.W. (1984). Measurement of the refractive index distribution of an intact crystalline lens. Vision Research, 24, 409 415.

Campbell, M.C.W. and Sands, P.J. (1984). Optical quality during crystalline lens growth. Nature, 312, 291 292.

Campbell, M.C.W. and Hughes, A. (1981). An analytic gradient index schematic lens and eye for the rat which predicts aberrations for finite pupils. Vision Research 21, 1129 1148.

Anderson, A. and Campbell, M.C.W. (1977). Infrared and Raman spectra of crystalline sulphur dioxide. J. Chem. Phys. 67, 4300 4302.