Synchronization of neuronal activity, often associated with network oscillations, is thought to provide a means for integrating anatomically distributed processing in the brain. Neuronal processing, however, involves simultaneous oscillations in various frequency bands. The mechanisms involved in the integration of such spectrally distributed processing have remained enigmatic. We demonstrate, using magnetoencephalography, that robust cross-frequency phase synchrony is present in the human cortex among oscillations with frequencies from 3 to 80 Hz. Continuous mental arithmetic tasks demanding the retention and summation of items in the working memory enhanced the cross-frequency phase synchrony among α (∼10 Hz), β (∼20 Hz), and γ (∼30-40 Hz...
Inter-areal synchronization of neuronal oscillations at frequencies below similar to 100Hz is a perv...
Human cognitive functions are subjectively coherent even though the underlying neuronal processing i...
Brain activity is strongly oscillatory: the collective firing of populations of neurons waxes and wa...
Neuronal oscillations and their inter‐areal synchronization may be instrumental in regulating neuron...
Phase synchronization of neuronal oscillations in specific frequency bands coordinates anatomically ...
Neuronal interactions form the basis for our brain function, and oscillations and synchrony are the ...
Phase synchronization of neuronal oscillations in specific frequency bands coordinates anatomically ...
Systems-level neuronal mechanisms that coordinate the temporally, anatomically, and functionally dis...
Phase synchronization of neuronal oscillations in specific frequency bands coordinates anatomically ...
Neuronal activity in sensory and fronto-parietal (FP) areas underlies the representation and attenti...
Oscillatory synchronization facilitates communication in neuronal networks and is intimately associa...
Inter-areal synchronization of neuronal oscillations at frequencies below ~100 Hz is a pervasive fea...
Using intracerebral EEG recordings in a large cohort of human subjects, we investigate the time cour...
Using intracerebral EEG recordings in a large cohort of human subjects, we investigate the time cour...
The systems-level neuronal mechanisms that coordinate temporally, anatomically and functionally dist...
Inter-areal synchronization of neuronal oscillations at frequencies below similar to 100Hz is a perv...
Human cognitive functions are subjectively coherent even though the underlying neuronal processing i...
Brain activity is strongly oscillatory: the collective firing of populations of neurons waxes and wa...
Neuronal oscillations and their inter‐areal synchronization may be instrumental in regulating neuron...
Phase synchronization of neuronal oscillations in specific frequency bands coordinates anatomically ...
Neuronal interactions form the basis for our brain function, and oscillations and synchrony are the ...
Phase synchronization of neuronal oscillations in specific frequency bands coordinates anatomically ...
Systems-level neuronal mechanisms that coordinate the temporally, anatomically, and functionally dis...
Phase synchronization of neuronal oscillations in specific frequency bands coordinates anatomically ...
Neuronal activity in sensory and fronto-parietal (FP) areas underlies the representation and attenti...
Oscillatory synchronization facilitates communication in neuronal networks and is intimately associa...
Inter-areal synchronization of neuronal oscillations at frequencies below ~100 Hz is a pervasive fea...
Using intracerebral EEG recordings in a large cohort of human subjects, we investigate the time cour...
Using intracerebral EEG recordings in a large cohort of human subjects, we investigate the time cour...
The systems-level neuronal mechanisms that coordinate temporally, anatomically and functionally dist...
Inter-areal synchronization of neuronal oscillations at frequencies below similar to 100Hz is a perv...
Human cognitive functions are subjectively coherent even though the underlying neuronal processing i...
Brain activity is strongly oscillatory: the collective firing of populations of neurons waxes and wa...