<p>(a) Waveforms contra- and ipsilateral to the singleton location. (b) Topographical maps of PCN scalp distributions for each of the three Salience conditions (High, Middle, Low) at the point in time when the difference between contra- and ipsilateral waveforms reached its maximum. These maps were computed by mirroring the contra-ipsilateral difference waves to obtain symmetrical voltage values for both hemispheres (using spherical spline interpolation). (c) PCN difference waves obtained by subtracting ipsilateral from contralateral activity for each of the three Salience conditions (High, Middle, Low).</p
<p>The ipsi-contralateral difference of normalized alpha power is projected on the right hemisphere....
<p>Grand mean waveforms in left and right hemisphere occipital electrode clusters for non-video-game...
High spatial density recording and better topographic mapping algorithms have improved the spatial r...
<p>A: Grand average event-related brain potentials. ERPs evoked by positive and negative traits for ...
<p>The scalp distributions were calculated on the basis of the corrected contralateral minus ipsilat...
<p>Displayed are the ipsilateral and contralateral grand average waveforms for electrodes PO3/4 at e...
<p>Difference waves were created by subtracting frequently occurring 80–80 dB SPL standard pairs in ...
<p>Topographies of the components were quite comparable for both groups in the different conditions,...
<p>Difference waves are shown for the experimental conditions (Hold in red, Add1 in blue, Add2 in gr...
<p>(a) Left: Ipsilateral/contralateral difference waveforms at electrodes PO3/4 from Experiment 1. T...
<div><p>(A) ERPs associated with chosen (magenta) and non-chosen (blue) stimuli, averaged across int...
<p>(a) Left: Ipsilateral/contralateral difference waveforms at electrodes PO3/4 for Experiment 2. Th...
<p>Top row: Topographic comparison between V-A and A-A, and V-A and V-V (significant differences sho...
A) Neighboring rhythms with different waveform shape for two electrodes and two components estimated...
<p>a) Event-related potentials following the presentation of the offer on electrode sites Fz (left) ...
<p>The ipsi-contralateral difference of normalized alpha power is projected on the right hemisphere....
<p>Grand mean waveforms in left and right hemisphere occipital electrode clusters for non-video-game...
High spatial density recording and better topographic mapping algorithms have improved the spatial r...
<p>A: Grand average event-related brain potentials. ERPs evoked by positive and negative traits for ...
<p>The scalp distributions were calculated on the basis of the corrected contralateral minus ipsilat...
<p>Displayed are the ipsilateral and contralateral grand average waveforms for electrodes PO3/4 at e...
<p>Difference waves were created by subtracting frequently occurring 80–80 dB SPL standard pairs in ...
<p>Topographies of the components were quite comparable for both groups in the different conditions,...
<p>Difference waves are shown for the experimental conditions (Hold in red, Add1 in blue, Add2 in gr...
<p>(a) Left: Ipsilateral/contralateral difference waveforms at electrodes PO3/4 from Experiment 1. T...
<div><p>(A) ERPs associated with chosen (magenta) and non-chosen (blue) stimuli, averaged across int...
<p>(a) Left: Ipsilateral/contralateral difference waveforms at electrodes PO3/4 for Experiment 2. Th...
<p>Top row: Topographic comparison between V-A and A-A, and V-A and V-V (significant differences sho...
A) Neighboring rhythms with different waveform shape for two electrodes and two components estimated...
<p>a) Event-related potentials following the presentation of the offer on electrode sites Fz (left) ...
<p>The ipsi-contralateral difference of normalized alpha power is projected on the right hemisphere....
<p>Grand mean waveforms in left and right hemisphere occipital electrode clusters for non-video-game...
High spatial density recording and better topographic mapping algorithms have improved the spatial r...