Attention plays a fundamental role in selectively processing stimuli in our environment despite distraction. Spatial attention induces increasing and decreasing power of neural alpha oscillations (8–12 Hz) in brain regions ipsilateral and contralateral to the locus of attention, respectively. This study tested whether the hemispheric lateralization of alpha power codes not just the spatial location but also the temporal structure of the stimulus. Participants attended to spoken digits presented to one ear and ignored tightly synchronized distracting digits presented to the other ear. In the magnetoencephalogram, spatial attention induced lateralization of alpha power in parietal, but notably also in auditory cortical regions. This alpha pow...
Frequency tagging of sensory inputs (presenting stimuli that fluctuate periodically at rates to whic...
The anticipation of stimuli facilitates the top--down preparation of neuronal tissue involved in the...
Given that both auditory and visual systems have anatomically separate object identification (‘‘what...
Attention plays a fundamental role in selectively processing stimuli in our environment despite dist...
The deployment of neural alpha (8–12 Hz) lateralization in service of spatial attention is well-esta...
The existence of a cortical “attentional filter” in the form of spatially selective modulation of al...
The topographical distribution of oscillatory power in the alpha band is known to vary depending on ...
Both visual and auditory spatial selective attention result in lateralized alpha (8-14 Hz) oscillato...
There have been a number of studies suggesting that oscillatory alpha activity (~10 Hz) plays a pivo...
Spatially selective modulation of alpha power (8–14 Hz) is a robust finding in electrophysiological ...
Modulations in alpha oscillations (∼10 Hz) are typically studied in the context of anticipating upco...
Despite the importance of auditory selective attention in everyday communication, the cortical mecha...
Attention can be allocated to mental representations to select information from working memory. To d...
Attending to a task-relevant location changes how neural activity oscillates in the alpha band (8-13...
Given that both auditory and visual systems have anatomically separate object identification (“what”...
Frequency tagging of sensory inputs (presenting stimuli that fluctuate periodically at rates to whic...
The anticipation of stimuli facilitates the top--down preparation of neuronal tissue involved in the...
Given that both auditory and visual systems have anatomically separate object identification (‘‘what...
Attention plays a fundamental role in selectively processing stimuli in our environment despite dist...
The deployment of neural alpha (8–12 Hz) lateralization in service of spatial attention is well-esta...
The existence of a cortical “attentional filter” in the form of spatially selective modulation of al...
The topographical distribution of oscillatory power in the alpha band is known to vary depending on ...
Both visual and auditory spatial selective attention result in lateralized alpha (8-14 Hz) oscillato...
There have been a number of studies suggesting that oscillatory alpha activity (~10 Hz) plays a pivo...
Spatially selective modulation of alpha power (8–14 Hz) is a robust finding in electrophysiological ...
Modulations in alpha oscillations (∼10 Hz) are typically studied in the context of anticipating upco...
Despite the importance of auditory selective attention in everyday communication, the cortical mecha...
Attention can be allocated to mental representations to select information from working memory. To d...
Attending to a task-relevant location changes how neural activity oscillates in the alpha band (8-13...
Given that both auditory and visual systems have anatomically separate object identification (“what”...
Frequency tagging of sensory inputs (presenting stimuli that fluctuate periodically at rates to whic...
The anticipation of stimuli facilitates the top--down preparation of neuronal tissue involved in the...
Given that both auditory and visual systems have anatomically separate object identification (‘‘what...