AbstractWhen a target travels slowly and smoothly along the line of sight of one eye, the eye that is aligned with the target remains stationary while the other eye adducts. The mechanism that is commonly invoked is that commands signaling conjugate pursuit and symmetrical vergence are combined. The two signals are in the same direction in the adducting eye but are in the opposite direction in the stationary eye and, so, cancel. Recent data have challenged this view and the idea that the two eyes are controlled independently has been resurrected. Pursuit and vergence movements are difficult to separate when they occur together because they have similar latencies and dynamics. We have developed a method where horizontal vergence is “tagged” ...
Vergence eye movements align the optical axes of our two eyes onto an object of interest, thus facil...
Recently, Enright described an unexpected association between disparity-induced vertical vergence an...
AbstractVergence eye movements were elicited in human subjects at short latencies (∼70ms) by applyin...
AbstractWhen a target travels slowly and smoothly along the line of sight of one eye, the eye that i...
When we track an object moving in depth, our eyes rotate in opposite directions. This type of “disju...
AbstractWe studied the dynamics of pure vergence shifts and vergence shifts combined with vertical a...
AbstractWe examined the velocity dependence of the vergence and version eye movements elicited by mo...
In pure symmetrical vergence eye movements, a fusion initiating component quickly brings the eyes cl...
AbstractMonkeys generated disjunctive smooth pursuit eye movements when they tracked visual targets ...
AbstractWe studied the dynamics of voluntary, horizontal, binocular gaze-shifts between pairs of con...
We studied the dynamics of voluntary, horizontal, binocular gaze-shifts between pairs of continuousl...
AbstractRecent investigations of the three-dimensional (3D) binocular eye positions in near vision h...
AbstractWhen a visual stimulus changes direction and distance simultaneously, Hering's Law argues th...
AbstractRecent research from our laboratory has been directed at understanding the range of capabili...
AbstractIn a natural environment, saccade and vergence eye movements shift gaze in different directi...
Vergence eye movements align the optical axes of our two eyes onto an object of interest, thus facil...
Recently, Enright described an unexpected association between disparity-induced vertical vergence an...
AbstractVergence eye movements were elicited in human subjects at short latencies (∼70ms) by applyin...
AbstractWhen a target travels slowly and smoothly along the line of sight of one eye, the eye that i...
When we track an object moving in depth, our eyes rotate in opposite directions. This type of “disju...
AbstractWe studied the dynamics of pure vergence shifts and vergence shifts combined with vertical a...
AbstractWe examined the velocity dependence of the vergence and version eye movements elicited by mo...
In pure symmetrical vergence eye movements, a fusion initiating component quickly brings the eyes cl...
AbstractMonkeys generated disjunctive smooth pursuit eye movements when they tracked visual targets ...
AbstractWe studied the dynamics of voluntary, horizontal, binocular gaze-shifts between pairs of con...
We studied the dynamics of voluntary, horizontal, binocular gaze-shifts between pairs of continuousl...
AbstractRecent investigations of the three-dimensional (3D) binocular eye positions in near vision h...
AbstractWhen a visual stimulus changes direction and distance simultaneously, Hering's Law argues th...
AbstractRecent research from our laboratory has been directed at understanding the range of capabili...
AbstractIn a natural environment, saccade and vergence eye movements shift gaze in different directi...
Vergence eye movements align the optical axes of our two eyes onto an object of interest, thus facil...
Recently, Enright described an unexpected association between disparity-induced vertical vergence an...
AbstractVergence eye movements were elicited in human subjects at short latencies (∼70ms) by applyin...