Synchronization has been implicated in neuronal communication, but causal evidence remains indirect. We use optogenetics to generate depolarizing currents in pyramidal neurons of the cat visual cortex, emulating excitatory synaptic inputs under precise temporal control, while measuring spike output. The cortex transforms constant excitation into strong gamma-band synchronization, revealing the well-known cortical resonance. Increasing excitation with ramps increases the strength and frequency of synchronization. Slow, symmetric excitation profiles reveal hysteresis of power and frequency. White-noise input sequences enable causal analysis of network transmission, establishing that the cortical gamma-band resonance preferentially transmits c...
The cortex processes stimuli through a distributed network of specialized brain areas. This processi...
Reliable signal transmission constitutes a key requirement for neural circuit function. The propagat...
Fine-scale temporal organization of cortical activity in the gamma range (∼25-80Hz) may play a signi...
Synchronization has been implicated in neuronal communication, but causal evidence remains indirect....
Synchronization has been implicated in neuronal communication, but causal evidence remains indirect....
Neuronal mechanisms underlying beta/gamma oscillations (20–80 Hz) are not completely understood. Her...
Understanding the anatomical and functional architecture of the brain is essential for designing neu...
Neuronal mechanisms underlying beta/gamma oscillations (20–80 Hz) are not completely understood. Her...
Precise spike times carry information and are important for synaptic plasticity. Synchronizing oscil...
Oscillations are ubiquitous features of brain dynamics that undergo task-related changes in synchron...
<div><p>Oscillations are ubiquitous features of brain dynamics that undergo task-related changes in ...
Abstract : Neuronal assemblies typically synchronize within the gamma band (30-80 Hz) and are funda...
Neural oscillations occur within a wide frequency range with different brain regions exhibiting reso...
AbstractSeveral theories have proposed a functional role for response synchronization in sensory per...
During the generation of higher-frequency (e.g., gamma) oscillations, cortical neurons can exhibit p...
The cortex processes stimuli through a distributed network of specialized brain areas. This processi...
Reliable signal transmission constitutes a key requirement for neural circuit function. The propagat...
Fine-scale temporal organization of cortical activity in the gamma range (∼25-80Hz) may play a signi...
Synchronization has been implicated in neuronal communication, but causal evidence remains indirect....
Synchronization has been implicated in neuronal communication, but causal evidence remains indirect....
Neuronal mechanisms underlying beta/gamma oscillations (20–80 Hz) are not completely understood. Her...
Understanding the anatomical and functional architecture of the brain is essential for designing neu...
Neuronal mechanisms underlying beta/gamma oscillations (20–80 Hz) are not completely understood. Her...
Precise spike times carry information and are important for synaptic plasticity. Synchronizing oscil...
Oscillations are ubiquitous features of brain dynamics that undergo task-related changes in synchron...
<div><p>Oscillations are ubiquitous features of brain dynamics that undergo task-related changes in ...
Abstract : Neuronal assemblies typically synchronize within the gamma band (30-80 Hz) and are funda...
Neural oscillations occur within a wide frequency range with different brain regions exhibiting reso...
AbstractSeveral theories have proposed a functional role for response synchronization in sensory per...
During the generation of higher-frequency (e.g., gamma) oscillations, cortical neurons can exhibit p...
The cortex processes stimuli through a distributed network of specialized brain areas. This processi...
Reliable signal transmission constitutes a key requirement for neural circuit function. The propagat...
Fine-scale temporal organization of cortical activity in the gamma range (∼25-80Hz) may play a signi...