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R W Knighton

Showing results (1-10 of 35) with videos related to

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Journal of Neurophysiology|January 1, 1975
An electrically evoked slow potential of the frog's retina. I. Properties of responseR W Knighton
Journal of Neurophysiology|January 1, 1975
Modification of the frog's electroretinogram by transretinal direct currentR W Knighton
Journal of Neurophysiology|January 1, 1975
An electrically evoked slow potential of the frog's retina. II. Identification with PII component of electroretinogramR W Knighton
Applied Optics|November 2, 2010
Numerical approximation of light scattering from tenuous cylindrical membranes at normal incidenceQ Zhou, R W Knighton
Journal of Glaucoma|March 9, 2000
An optical model of the human retinal nerve fiber layer: implications of directional reflectance for variability of clinical measurementsR W Knighton, C Qian
Applied Optics|April 1, 1997
Light scattering and form birefringence of parallel cylindrical arrays that represent cellular organelles of the retinal nerve fiber layerQ Zhou, R W Knighton
Journal of Glaucoma|November 19, 2009
The relation between the reflectance and thickness of the retinal nerve fiber layerR W Knighton, Q Zhou
Investigative Ophthalmology & Visual Science|March 6, 1999
Directional and spectral reflectance of the rat retinal nerve fiber layerR W Knighton, X R Huang
Journal of Glaucoma|March 20, 1999
Visible and near-infrared imaging of the nerve fiber layer of the isolated rat retinaR W Knighton, X R Huang
International Ophthalmology Clinics|January 1, 1980
Electrophysiological evaluation of eyes with opaque mediaR W Knighton, G W Blankenship
Pageof 4

Showing results (1-10 of 35) with videos related to

Sort By:
Pageof 4
Journal of Neurophysiology|January 1, 1975
An electrically evoked slow potential of the frog's retina. I. Properties of responseR W Knighton
Journal of Neurophysiology|January 1, 1975
Modification of the frog's electroretinogram by transretinal direct currentR W Knighton
Journal of Neurophysiology|January 1, 1975
An electrically evoked slow potential of the frog's retina. II. Identification with PII component of electroretinogramR W Knighton
Applied Optics|November 2, 2010
Numerical approximation of light scattering from tenuous cylindrical membranes at normal incidenceQ Zhou, R W Knighton
Journal of Glaucoma|March 9, 2000
An optical model of the human retinal nerve fiber layer: implications of directional reflectance for variability of clinical measurementsR W Knighton, C Qian
Applied Optics|April 1, 1997
Light scattering and form birefringence of parallel cylindrical arrays that represent cellular organelles of the retinal nerve fiber layerQ Zhou, R W Knighton
Journal of Glaucoma|November 19, 2009
The relation between the reflectance and thickness of the retinal nerve fiber layerR W Knighton, Q Zhou
Investigative Ophthalmology & Visual Science|March 6, 1999
Directional and spectral reflectance of the rat retinal nerve fiber layerR W Knighton, X R Huang
Journal of Glaucoma|March 20, 1999
Visible and near-infrared imaging of the nerve fiber layer of the isolated rat retinaR W Knighton, X R Huang
International Ophthalmology Clinics|January 1, 1980
Electrophysiological evaluation of eyes with opaque mediaR W Knighton, G W Blankenship
Pageof 4