The present study was designed to evaluate whether fixation point offsets have the same effects on the average latencies of prosaccades (responses towards target) and antisaccades (responses away from target). Gap and overlap conditions were run with and without an acoustic warning signal. The ‘gap effect’ was taken to be the difference in mean reaction time between gap and overlap trials. This effect was dramatically reduced by the presentation of the warning signal. Without this signal, fixation offsets can serve as warning signals themselves, which artifactually inflates the magnitude of the gap effect. The warning effect of fixation offsets was equivalent for pro and antisaccades. A significant gap effect is still evident with the acous...
<p>Here we plot the distributions for antisaccade (correct: white, error: black) and prosaccade (sha...
Abstract In several previous experiments examining the effects of participants ’ expectations on ocu...
Simple manual reaction time (MRT) to a visual target (S2) is shortened when a non-informative cue (S...
In several previous experiments examining the effects of participants’ expectations on oculomotor pe...
AbstractThe systematic variations of regular saccadic reaction times induced in gap/overlap paradigm...
AbstractCan a release of attention from fixation help explain the saccadic ‘gap effect’, the shorten...
AbstractThe gap effect refers to a reduction in the latency of saccades to peripherally appearing ta...
AbstractIn an antisaccade task, where saccades in the direction opposite of a suddenly presented sti...
AbstractTurning off a fixation point prior to or coincident with the appearance of a visual target r...
AbstractSaccadic eye movements generated in response to a gap paradigm in which the fixation light s...
AbstractThe saccadic “gap effect” refers to a phenomenon whereby saccadic reaction times (SRTs) are ...
AbstractWe examined the effect of gap-overlap stimuli on the distribution of latencies for pure sacc...
To what extent do humans exert control over low-level components of the oculomotor system? Previous ...
In a gap paradigm, healthy adult subjects performed visually triggered saccades to peripheral target...
The ability to not execute (i.e. to inhibit) actions is important for behavioural flexibility and fr...
<p>Here we plot the distributions for antisaccade (correct: white, error: black) and prosaccade (sha...
Abstract In several previous experiments examining the effects of participants ’ expectations on ocu...
Simple manual reaction time (MRT) to a visual target (S2) is shortened when a non-informative cue (S...
In several previous experiments examining the effects of participants’ expectations on oculomotor pe...
AbstractThe systematic variations of regular saccadic reaction times induced in gap/overlap paradigm...
AbstractCan a release of attention from fixation help explain the saccadic ‘gap effect’, the shorten...
AbstractThe gap effect refers to a reduction in the latency of saccades to peripherally appearing ta...
AbstractIn an antisaccade task, where saccades in the direction opposite of a suddenly presented sti...
AbstractTurning off a fixation point prior to or coincident with the appearance of a visual target r...
AbstractSaccadic eye movements generated in response to a gap paradigm in which the fixation light s...
AbstractThe saccadic “gap effect” refers to a phenomenon whereby saccadic reaction times (SRTs) are ...
AbstractWe examined the effect of gap-overlap stimuli on the distribution of latencies for pure sacc...
To what extent do humans exert control over low-level components of the oculomotor system? Previous ...
In a gap paradigm, healthy adult subjects performed visually triggered saccades to peripheral target...
The ability to not execute (i.e. to inhibit) actions is important for behavioural flexibility and fr...
<p>Here we plot the distributions for antisaccade (correct: white, error: black) and prosaccade (sha...
Abstract In several previous experiments examining the effects of participants ’ expectations on ocu...
Simple manual reaction time (MRT) to a visual target (S2) is shortened when a non-informative cue (S...