Multiple spatial frequency tuning of electrical responses from human visual cortex. Exp. Brain Res. 33, 535-550, 1978 (with P. Apkarian, K. Nakayama). PDF

Rapid assessment of visual function: An electronic sweep technique for the pattern VEP. Invest. Ophthalmol. Vis. Sci. 18, 703-713, 1979 (with K. Nakayama, P.A. Apkarian, D.M. Levi).

High temporal frequency visual evoked potentials to luminance and pattern stimulation in the peripheral retina. In Proc. Int. Evoked Potentials Symposium. Barber C. (Ed.), MTP Press: Lancaster, 1980, pp. 199-204 (with P.A. Apkarian).

VEP assessment of visual function. Vision Res. 21, 607-609, 1981 (with P. Apkarian, K. Nakayama, D.M. Levi).

Binocularity in the human visual evoked potential: Facilitation, summation and suppression. Electroenceph. Clin. Neurophysiol. 51, 32-48, 1981 (with P. Apkarian, K. Nakayama). PDF

Binocular facilitation in the visual evoked potential of strabismic amblyopes. Am. J. Optom. 58, 820-830, 1981 (with D. Levi, P. Apkarian).

Binocular facilitation in the VEP of normal observers and strabismic amblyopes. Doc. Ophthal. Proc. 27, 323-335, 1981 (with P. Apkarian).

Spatial frequency limitations in binocular neurons: VEP evidence. Ann. N.Y. Acad. Sci., 610-614, 1982 (with K. Nakayama, P. Apkarian).

Assessment of visual function in infants by evoked potentials. Devel. Med. & Child Neurol. 24, 853-856, 1982.

Properties of localized pattern evoked potentials. Ann. N.Y. Acad. Sci. 388, 662-670, 1982 (with P. Apkarian).

Electrophysiological evidence for coarse and fine disparity mechanisms in human. Vision Res. 11, 1603-1611, 1985 (with A.M. Norcia, E.E. Sutter). PDF

Spatial frequency sweep VEP: Visual acuity during the first year of life. Vision Res. 25, 1399-1408, 1985 (with A.M. Norcia).

Infant VEP acuity measurements: Analysis of individual differences and measurement error. Electroenceph. Clin. Neurophysiol. 61, 359-369, 1985 (with A.M. Norcia).

Digital filtering and robust regression techniques for estimating sensory thresholds from the evoked potential. IEEE Trans. Eng. Med. Bio. 4(4), 26-32, 1985 (with A.M. Norcia, M.B. Clarke).

Electrophysiological assessment of contrast sensitivity in human infants. Am. J. Optom. Physiol. Opt. 63, 12-15, 1986.

Plasticity of human acuity development with variations in visual experience. In, Adaptive Processes in Visual and Oculomotor Systems. Keller E.L., Zee D.A. (Eds.), Pergamon: Oxford, 1986, pp. 95-100 (with A.M. Norcia).

Comparative study of electrophysiological and psychophysical measurement of the contrast sensitivity function in humans. Am. J. Optom. Physiol. Opt. 63, 442-449, 1986 (with D. Allen, A.M. Norcia).

Visual evoked potentials: Isolation of cortical populations narrowly tuned to spatial frequency. In, Neurophysiology and Psychophysiology, Galbraith G.C., Kietzman M.L., Donchin E. (Eds.), Erlbaum: New Jersey, 1988, pp. 91-101 (with K. Nakayama, P. Apkarian, M. Mackeben).

Two mechanisms revealed by sweep VEP contrast functions in infants. OSA Tech. Dig. 87-4, 24-27, 1987 (with R.D. Hamer, A.M. Norcia)

The development of monocular and binocular VEP acuity. Vision Res. 29, 397-408, 1989 (with R.D. Hamer, A.M. Norcia, C. Hsu-Winges).

Measurement of spatial contrast sensitivity with the swept contrast VEP. Vision Res. 29, 627-637, 1989 (with A.M. Norcia, R.D. Hamer, W. Wesemann).

Development of contrast sensitivity in the human infant. Vision Res. 30, 1475-1486, 1990 (with A.M. Norcia, R.D. Hamer).

Temporal dynamics of the human response to symmetry. J Vision 2:132-9, 2002. (with AM Norcia, TR Candy, MW Pettet, VY Vildavski). PDF