Gamma-band synchronization is abundant in nervous systems. Typically, the strength or precision of gamma-band synchronization is studied. However, the precise phase with which individual neurons are synchronized to the gamma-band rhythm might have interesting consequences for their impact on further processing and for spike timing-dependent plasticity. Therefore, we investigated whether the spike times of individual neurons shift systematically in the gamma cycle as a function of the neuronal activation strength. We found that stronger neuronal activation leads to spikes earlier in the gamma cycle, i.e., we observed gamma-phase shifting. Gamma-phase shifting occurred on very rapid timescales. It was particularly pronounced for periods in wh...
Gamma synchronization has generally been associated with grouping processes in the visual system. He...
Oscillations in the local field potential (LFP) are abundant across species and brain regions. The p...
The phase of spikes in the gamma cycle has previously been shown to be modulated by stimulus orienta...
Gamma-band synchronization is abundant in nervous systems. Typically, the strength or precision of g...
Gamma-bandsynchronization is abundant innervous systems.Typically, the strengthorprecisionof gamma-b...
Gamma-band synchronization adjusts the timing of excitatory and inhibitory inputs to a neuron. Neuro...
SummaryNeuronal oscillations in the gamma band (30–80 Hz) have been suggested to play a central role...
Gamma-band synchronization coordinates brief periods of excitability in oscillating neuronal populat...
Gamma-band synchronization coordinates brief periods of excitability in oscillating neuronal populat...
Gamma oscillations are a prominent type of collective neuronal activity. Similar to other types of c...
Item does not contain fulltextWhen a sensory stimulus repeats, neuronal firing rate and functional M...
Our capacity to process and respond behaviourally to multiple incoming stimuli is very limited. To o...
Functional correlates of Rhythms in the gamma band (30-100Hz) are observed in the mammalian brain wi...
Brain signals often show rhythmic activity in the so-called gamma range (30-80 Hz), whose magnitude ...
Gamma synchronization has generally been associated with grouping processes in the visual system. He...
Oscillations in the local field potential (LFP) are abundant across species and brain regions. The p...
The phase of spikes in the gamma cycle has previously been shown to be modulated by stimulus orienta...
Gamma-band synchronization is abundant in nervous systems. Typically, the strength or precision of g...
Gamma-bandsynchronization is abundant innervous systems.Typically, the strengthorprecisionof gamma-b...
Gamma-band synchronization adjusts the timing of excitatory and inhibitory inputs to a neuron. Neuro...
SummaryNeuronal oscillations in the gamma band (30–80 Hz) have been suggested to play a central role...
Gamma-band synchronization coordinates brief periods of excitability in oscillating neuronal populat...
Gamma-band synchronization coordinates brief periods of excitability in oscillating neuronal populat...
Gamma oscillations are a prominent type of collective neuronal activity. Similar to other types of c...
Item does not contain fulltextWhen a sensory stimulus repeats, neuronal firing rate and functional M...
Our capacity to process and respond behaviourally to multiple incoming stimuli is very limited. To o...
Functional correlates of Rhythms in the gamma band (30-100Hz) are observed in the mammalian brain wi...
Brain signals often show rhythmic activity in the so-called gamma range (30-80 Hz), whose magnitude ...
Gamma synchronization has generally been associated with grouping processes in the visual system. He...
Oscillations in the local field potential (LFP) are abundant across species and brain regions. The p...
The phase of spikes in the gamma cycle has previously been shown to be modulated by stimulus orienta...