We recently demonstrated that the perceived stability of a visual target that is displaced during a saccade critically depends on whether the target is present immediately when the saccade ends; blanking a target during and just after a saccade makes its intra-saccadic displacement more visible (Deubel et al. Vis Res 1996;36:985–996). Here, we investigate the interaction of visual context and blanking. Subjects saw a saccade target and an equal-sized distractor. During a saccade one or the other was displaced left or right. At the same time, one of the objects could be blanked briefly. Subjects reported whether the target or the distractor had jumped. The object that was blanked was more often seen as jumping (Experiment 1), regardless of w...
As we make saccades, the image on each retina is displaced, yet our visual perception is uninterrupt...
International audienceSaccadic eye movements cause displacements of the image of the visual world pr...
Saccadic eye movements enable us to rapidly direct our high-resolution fovea onto relevant parts of ...
AbstractDisplacement of a visual target during a saccadic eye movement is normally detected only at ...
AbstractIt has been demonstrated that visual objects that are present after saccadic eye movements a...
Abstract: Why and how people perceive the visual world as continuous and stable, despite the gross c...
Retinal image displacements caused by saccadic eye movements are generally unnoticed. Recent theorie...
AbstractWhen multiple bars are briefly flashed near the saccadic goal on a visual reference just bef...
The content and nature of transsaccadic memory are still a matter of debate. Brief postsaccadic targ...
One of the more enduring mysteries of neuroscience is how the visual system constructs robust maps o...
Subjectively, we experience a stable representation of the outside world across saccades. Although p...
Saccades rapidly jerk the eye into new positions, yet we rarely experience the motion streaks impose...
During saccadic eye movements, the image on our retinas is, contrary to subjective experience, highl...
To establish a perceptually stable world despite the large retinal shifts caused by saccadic eye mov...
As we make saccades, the image on each retina is displaced, yet our visual perception is uninterrupt...
As we make saccades, the image on each retina is displaced, yet our visual perception is uninterrupt...
International audienceSaccadic eye movements cause displacements of the image of the visual world pr...
Saccadic eye movements enable us to rapidly direct our high-resolution fovea onto relevant parts of ...
AbstractDisplacement of a visual target during a saccadic eye movement is normally detected only at ...
AbstractIt has been demonstrated that visual objects that are present after saccadic eye movements a...
Abstract: Why and how people perceive the visual world as continuous and stable, despite the gross c...
Retinal image displacements caused by saccadic eye movements are generally unnoticed. Recent theorie...
AbstractWhen multiple bars are briefly flashed near the saccadic goal on a visual reference just bef...
The content and nature of transsaccadic memory are still a matter of debate. Brief postsaccadic targ...
One of the more enduring mysteries of neuroscience is how the visual system constructs robust maps o...
Subjectively, we experience a stable representation of the outside world across saccades. Although p...
Saccades rapidly jerk the eye into new positions, yet we rarely experience the motion streaks impose...
During saccadic eye movements, the image on our retinas is, contrary to subjective experience, highl...
To establish a perceptually stable world despite the large retinal shifts caused by saccadic eye mov...
As we make saccades, the image on each retina is displaced, yet our visual perception is uninterrupt...
As we make saccades, the image on each retina is displaced, yet our visual perception is uninterrupt...
International audienceSaccadic eye movements cause displacements of the image of the visual world pr...
Saccadic eye movements enable us to rapidly direct our high-resolution fovea onto relevant parts of ...