Some studies suggest that attention can be captured by irrelevant, salient objects when they appear rarely. We addressed this issue using the N2pc effect, a lateralized, negative voltage spike in the brain potentials in parietal cortex, thought to reflect attentional allocation. A cue display was followed by a target display...
Some studies suggest that attention can be captured by irrelevant, salient objects when they appear rarely. We addressed this issue using the N2pc effect, a lateralized, negative voltage spike in the brain potentials in parietal cortex, thought to reflect attentional allocation. A cue display was followed by a target display...
Several behavioral studies have suggested that rarity is critical for enabling irrelevant, salient objects to capture attention. We tested this hypothesis using the event-related potential (ERP) component, N2pc, thought to reflect attentional allocation. A cue display was followed by a target display in which participants identified the letter in a...
Several behavioral studies have suggested that rarity is critical for enabling irrelevant, salient
objects to capture attention. We tested this hypothesis using the N2pc, thought to reflect
attentional allocation. A cue display was followed by a target display in which participants
identified the letter in a specific color. Experiment 1...
Some studies suggest that attention can be captured by irrelevant, salient objects when they appear rarely. We addressed this issue using the N2pc effect, a lateralized, negative voltage spike in the brain potentials in parietal cortex, thought to reflect attentional allocation. A cue display was followed by a target display...