<p>A. LFP responses of the selected combinations (five selected frequency in four intensities) in the control (black line) and adapted (gray line) sequences at a single recording site. B. MUA responses of theses two sequences (control; black line, adapted; gray line) that were identified with PSTH. C,D. Neural responses of the same site, similar to A,B with different adapter. In all figures, x axis is time duration between 10ms before to 90ms after stimulus onset, y axis presents the strength of the responses, the transparent window shows 50 ms stimulus presentation and the black triangular marks indicate the adapter stimulus.</p
<p>A. Relative changes in the spiking activity during 30 s long adaptation phase. Data averaged over...
<p>A: evoked local field potentials (LFPs) at different stimulus intensities (a: 50, 75 and 100 µA; ...
<p>Subfigures show data from a CL1 neuron (A-D), TB1 neuron (A'-D'), CPU1 neuron (A''-D'') and CPU2 ...
<p>A. The LFP variation in control sequence (black bar) and adapting sequences (gray bar) for a reco...
<p>A. The First row shows FRA of one site that has been achived using LFP and MUA in the control seq...
Local field potentials (LFP) and multi-unit activity (MUA) recorded in vivo are known to convey diff...
Local field potentials (LFP) and multi-unit activity (MUA) recorded in vivo are known to convey diff...
<p><b>A.</b> Field (3–300 Hz) and action potential (300–3000 Hz) responses at the hot spot to increa...
In the present work we investigate the dependence of local field potential (LFP) on spiking activity...
<p>A. The population isointensity curve of 167 neurons that their firing rates were normalized and t...
How sensory stimuli are encoded in neuronal activity is a major challenge for understanding percepti...
The analysis of single trial responses of field potentials is an important tool to study brain signa...
Multiunit activity is known to be alignedbut like any mystery, the solution depends not just on our ...
Extracellular neurophysiological recordings are typically separated in two frequency bands. Low freq...
Local field potentials (LFP) reflect the properties of neuronal circuits or columns recorded in a vo...
<p>A. Relative changes in the spiking activity during 30 s long adaptation phase. Data averaged over...
<p>A: evoked local field potentials (LFPs) at different stimulus intensities (a: 50, 75 and 100 µA; ...
<p>Subfigures show data from a CL1 neuron (A-D), TB1 neuron (A'-D'), CPU1 neuron (A''-D'') and CPU2 ...
<p>A. The LFP variation in control sequence (black bar) and adapting sequences (gray bar) for a reco...
<p>A. The First row shows FRA of one site that has been achived using LFP and MUA in the control seq...
Local field potentials (LFP) and multi-unit activity (MUA) recorded in vivo are known to convey diff...
Local field potentials (LFP) and multi-unit activity (MUA) recorded in vivo are known to convey diff...
<p><b>A.</b> Field (3–300 Hz) and action potential (300–3000 Hz) responses at the hot spot to increa...
In the present work we investigate the dependence of local field potential (LFP) on spiking activity...
<p>A. The population isointensity curve of 167 neurons that their firing rates were normalized and t...
How sensory stimuli are encoded in neuronal activity is a major challenge for understanding percepti...
The analysis of single trial responses of field potentials is an important tool to study brain signa...
Multiunit activity is known to be alignedbut like any mystery, the solution depends not just on our ...
Extracellular neurophysiological recordings are typically separated in two frequency bands. Low freq...
Local field potentials (LFP) reflect the properties of neuronal circuits or columns recorded in a vo...
<p>A. Relative changes in the spiking activity during 30 s long adaptation phase. Data averaged over...
<p>A: evoked local field potentials (LFPs) at different stimulus intensities (a: 50, 75 and 100 µA; ...
<p>Subfigures show data from a CL1 neuron (A-D), TB1 neuron (A'-D'), CPU1 neuron (A''-D'') and CPU2 ...