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D. Hubel, T. Wiesel (1963)
RECEPTIVE FIELDS OF CELLS IN STRIATE CORTEX OF VERY YOUNG, VISUALLY INEXPERIENCED KITTENS.Journal of neurophysiology, 26
P. Sterling (1971)
Receptive fields and synaptic organization of the superficial gray layer of the cat superior colliculus.Vision research, Suppl 3
L. Sosula, P. Glow (1970)
A quantitative ultrastructural study of the inner plexiform layer of the rat retinaJournal of Comparative Neurology, 140
R. Frank, T. Goldsmith (1967)
Effects of Cardiac Glycosides on Electrical Activity in the Isolated Retina of the FrogThe Journal of General Physiology, 50
R. Shlaer (1971)
Shift in Binocular Disparity Causes Compensatory Change in the Cortical Structure of KittensScience, 173
P. Sterling, B. Wickelgren (1969)
Visual receptive fields in the superior colliculus of the cat.Journal of neurophysiology, 32 1
D. Creel (1971)
Visual System Anomaly associated with Albinism in the CatNature, 231
A. Granda, S. Yazulla (1971)
The Spectral Sensitivity of Single Units in the Nucleus Rotundus of Pigeon, Columba liviaThe Journal of General Physiology, 57
N. Daw, A. Pearlman (1969)
Cat colour vision: one cone process or several?The Journal of Physiology, 201
D. Hubel, T. Wiesel (1970)
Stereoscopic Vision in Macaque Monkey: Cells sensitive to Binocular Depth in Area 18 of the Macaque Monkey CortexNature, 225
R. Penn, W. Hagins (1969)
Signal Transmission along Retinal Rods and the Origin of the Electroretinographic a-WaveNature, 223
J. Sprague, J. Sprague, T. Meikle, T. Meikle (1965)
THE ROLE OF THE SUPERIOR COLLICULUS IN VISUALLY GUIDED BEHAVIOR.Experimental neurology, 11
C. Sternheim, C. Cavonius (1972)
Sensitivity of the human ERG and VECP to sinusoidally modulated light.Vision research, 12 10
R. Steinberg, R. Schmidt, K. Brown (1970)
Intracellular Responses to Light from Cat Pigment Epithelium: Origin of the Electroretinogram c-WaveNature, 227
F. Werblin (1971)
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Single-unit recording and stimulation in superior colliculus of the alert rhesus monkey.Journal of neurophysiology, 35 6
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An analog model of the rabbit's optokinetic system.Brain research, 36 1
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Anatomic studies on the superior colliculus.Investigative ophthalmology, 11 6
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T. Wiesel, D. Hubel (1963)
EFFECTS OF VISUAL DEPRIVATION ON MORPHOLOGY AND PHYSIOLOGY OF CELLS IN THE CATS LATERAL GENICULATE BODY.Journal of neurophysiology, 26
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The effect of calcium on the Distal P III component of the frog ERG.Experimental eye research, 12 1
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RECEPTIVE FIELDS AND FUNCTIONAL ARCHITECTURE IN TWO NONSTRIATE VISUAL AREAS (18 AND 19) OF THE CAT.Journal of neurophysiology, 28
H. Barlow, W. Levick (1969)
Three factors limiting the reliable detection of light by retinal ganglion cells of the catThe Journal of Physiology, 200
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A static perimetric technique believed to test receptive field properties. 3. Clinical trials.American journal of ophthalmology, 70 2
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The 2 component of the vitreal -wave and its intraretinal localization in the frog retina.Vision research, 11 6
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The relationship between response characteristics to flicker stimulation and receptive field organization in the cat's optic nerve fibers.Vision research, 11 3
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Anomalous Retinal Pathways in the Siamese Cat: An Inadequate Substrate for Normal Binocular VisionScience, 174
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Rotational diffusion of rhodopsin in the visual receptor membrane.Nature: New biology, 236 63
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Some observations on the structure of receptor outer limbs.Advances in experimental medicine and biology, 24 0
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Integration of retinal and cortical information in the superior colliculus of the ground squirrel.Brain, behavior and evolution, 3 1
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Archives of Ophthalmology – American Medical Association
Published: Oct 1, 1973
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