Evidence has amassed from both animal intracranial recordings and human electrophysiology that neural oscillatory mechanisms play a critical role in a number of cognitive functions such as learning, memory, feature binding and sensory gating. The wide availability of high-density electrical and magnetic recordings (64-256 channels) over the past two decades has allowed for renewed efforts in the characterization and localization of these rhythms. A variety of cognitive effects that are associated with specific brain oscillations have been reported, which range in spectral, temporal, and spatial characteristics depending on the context. Our laboratory has focused on investigating the role of alpha-band oscillatory activity (8-14 Hz) as a po...
Neural oscillations in the alpha band (7–13 Hz) have long been associated with reductions in attenti...
Despite the importance of auditory selective attention in everyday communication, the cortical mecha...
Attention filters and weights sensory information according to behavioral demands. Stimulus-related ...
Alpha-band oscillations are the dominant oscillations in the human brain and recent evidence suggest...
There have been a number of studies suggesting that oscillatory alpha activity (~10 Hz) plays a pivo...
Electrophysiological activity measured at the scalp surface using electroencephalography or magnetoe...
Recent advances in attention research have been propelled by the debate on target enhancement versus...
Attentional selection mechanisms in visual cortex involve changes in oscillatory activity in the EEG...
Oscillatory neuronal activity in the alpha band has been associated with both conscious perception a...
Our brain does not process incoming sensory stimuli mechanistically. Instead the current brain state...
Alpha oscillations are ubiquitous in the brain, but their role in cortical processing remains a matt...
A central feature of human brain activity is the alpha rhythm: a 7 - 13 Hz oscillation observed most...
Spatial attention provides a mechanism for, respectively, enhancing relevant and suppressing irrelev...
To increase efficiency of information processing in cognitive systems with limited capacity, it is i...
AbstractScientific research from the last two decades has provided a vast amount of evidence that br...
Neural oscillations in the alpha band (7–13 Hz) have long been associated with reductions in attenti...
Despite the importance of auditory selective attention in everyday communication, the cortical mecha...
Attention filters and weights sensory information according to behavioral demands. Stimulus-related ...
Alpha-band oscillations are the dominant oscillations in the human brain and recent evidence suggest...
There have been a number of studies suggesting that oscillatory alpha activity (~10 Hz) plays a pivo...
Electrophysiological activity measured at the scalp surface using electroencephalography or magnetoe...
Recent advances in attention research have been propelled by the debate on target enhancement versus...
Attentional selection mechanisms in visual cortex involve changes in oscillatory activity in the EEG...
Oscillatory neuronal activity in the alpha band has been associated with both conscious perception a...
Our brain does not process incoming sensory stimuli mechanistically. Instead the current brain state...
Alpha oscillations are ubiquitous in the brain, but their role in cortical processing remains a matt...
A central feature of human brain activity is the alpha rhythm: a 7 - 13 Hz oscillation observed most...
Spatial attention provides a mechanism for, respectively, enhancing relevant and suppressing irrelev...
To increase efficiency of information processing in cognitive systems with limited capacity, it is i...
AbstractScientific research from the last two decades has provided a vast amount of evidence that br...
Neural oscillations in the alpha band (7–13 Hz) have long been associated with reductions in attenti...
Despite the importance of auditory selective attention in everyday communication, the cortical mecha...
Attention filters and weights sensory information according to behavioral demands. Stimulus-related ...