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When a task-relevant stimulus is presented for a brief duration or with low contrast, neural enhancement is needed to boost the weak responses to the target. Otherwise, the stimulus goes unnoticed, which is the default when the stimulus is task-irrelevant. Here, we used evoked-related potentials (ERPs) to investigate the neural mechanisms of target enhancement. The target consisted of a vernier, i.e., two vertical bars that are slightly offset in the horizontal direction. Observers discriminated the offset direction. First, we compared the ERPs elicited by the vernier when it was task-relevant vs. task-irrelevant. When the vernier was task-relevant, it elicited strong ERPs amplitudes at ~200ms after stimulus-onset with a bilateral negative occipital and positive fronto-central topography. This topography remained stable for around 140ms. When the vernier was task-irrelevant, similar ERPs were elicited but with much weaker amplitudes and for shorter topography durations. In a second experiment, we presented a mask after the target vernier, with varying inter-stimulus-intervals (ISIs). Performance on the target decreased linearly with the ISI, i.e., the shorter the ISI, the worse the performance. Interestingly, the ERPs amplitudes and topography durations decreased with the ISI. When the ISI was 0ms, performance was at chance level and ERPs amplitudes and topography durations were very similar to when the vernier was task-irrelevant. We propose that invisibility can come by either task irrelevance or masking. Under these two conditions, ERPs amplitudes and topographies are identical, suggesting similar brain processing.
Michael Herzog, Maya Roinishvili, Ophélie Gladys Favrod, Patricia Figueiredo, Albulena Jashari-Shaqiri
Stéphanie Lacour, Florent-Valéry Coen, Nicolas Vachicouras
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