Visual attention can be focused concurrently on two stimuli at noncontiguous locations while intermediate stimuli remain ignored. Nevertheless, behavioral performance in multifocal attention tasks falters when attended stimuli fall within one visual hemifield as opposed to when they are distributed across left and right hemifields. This “different-hemifield advantage” has been ascribed to largely independent processing capacities of each cerebral hemisphere in early visual cortices. Here, we investigated how this advantage influences the sustained division of spatial attention. We presented six isoeccentric light-emitting diodes (LEDs) in the lower visual field, each flickering at a different frequency. Participants attended to two LEDs tha...
Attention allows us to focus on only important sensory stimuli in a world full of distractors. Howev...
This work was supported by a grant from the Biotechnology and Biological Sciences Research Council (...
Selective attention controls the distribution of our visual sys- tem's limited processing resources ...
Visual attention can be focused concurrently on two stimuli at noncontiguous locations while interme...
Visual attention can be focused concurrently on two stimuli at noncontiguous locations while interme...
Visual attention can be focused concurrently on two stimuli at noncontiguous locations while interme...
International audienceIt is much easier to divide attention across the left and right visual hemifie...
Performing a task across the left and right visual hemifields results in better performance than in ...
AbstractSpatially directed attention strongly enhances visual perceptual processing. The metaphor of...
Visual attention is involved in many everyday tasks, such as finding one’s shoes, driving, or lookin...
AbstractCan the brain attend to more than a single location at one time? In this issue of Neuron, Mc...
It is still a matter of debate whether observers can attend simultaneously to more than one location...
A long-standing debate in the literature is whether attention can form two or more independent spati...
We assessed the extent of neural competition for attentional processing resources in early visual co...
AbstractTo determine the manner in which attention is distributed among numerous locations in the vi...
Attention allows us to focus on only important sensory stimuli in a world full of distractors. Howev...
This work was supported by a grant from the Biotechnology and Biological Sciences Research Council (...
Selective attention controls the distribution of our visual sys- tem's limited processing resources ...
Visual attention can be focused concurrently on two stimuli at noncontiguous locations while interme...
Visual attention can be focused concurrently on two stimuli at noncontiguous locations while interme...
Visual attention can be focused concurrently on two stimuli at noncontiguous locations while interme...
International audienceIt is much easier to divide attention across the left and right visual hemifie...
Performing a task across the left and right visual hemifields results in better performance than in ...
AbstractSpatially directed attention strongly enhances visual perceptual processing. The metaphor of...
Visual attention is involved in many everyday tasks, such as finding one’s shoes, driving, or lookin...
AbstractCan the brain attend to more than a single location at one time? In this issue of Neuron, Mc...
It is still a matter of debate whether observers can attend simultaneously to more than one location...
A long-standing debate in the literature is whether attention can form two or more independent spati...
We assessed the extent of neural competition for attentional processing resources in early visual co...
AbstractTo determine the manner in which attention is distributed among numerous locations in the vi...
Attention allows us to focus on only important sensory stimuli in a world full of distractors. Howev...
This work was supported by a grant from the Biotechnology and Biological Sciences Research Council (...
Selective attention controls the distribution of our visual sys- tem's limited processing resources ...