The wake human brain constantly samples perceptual information from the environment and integrates them into existing neuronal networks. Neuronal oscillations have been ascribed a key role in the formation of novel memories. The theta rhythm (3-8 Hz) reflects a central executive mechanism, which integrates novel information, reflected in theta-coupled gamma oscillations (> 30 Hz). Alpha oscillations (8-14 Hz) reflect an attentional gating mechanism, which inhibit task irrelevant neuronal processes. In my dissertation I further scrutinized the oscillatory dynamics of memory formation. Study 1 demonstrated that theta-gamma coupling reflects a specific mechanism for associative memory formation. In study 2, I experimentally entrained memory en...
Theta oscillations (3-9 Hz) in the hippocampus have been posited to mitigate the trade-offs between ...
Gamma oscillations, now widely regarded as functionally relevant signals of the brain, illustrate th...
Neuronal oscillations provide a window for understanding the brain dynamics that organize the flow o...
It is an integral function of the human brain to sample novel information from the environment and t...
The hippocampus contributes to the formation of long term memory. However, exactly how the hippocamp...
Memory retrieval involves the reactivation of memory traces distributed throughout the brain. New re...
An important, but often ignored distinction in the analysis of EEG signals is that between evoked ac...
Rhythmic oscillations are prominent features of information processing in neuronal circuits that hav...
It remains a dogma in cognitive neuroscience to separate human attention and memory into distinct mo...
The increased interest in gamma oscillations, now widely regarded as functionally relevant signals o...
Contains fulltext : 50207.pdf (publisher's version ) (Open Access)Although studies...
The human brain’s ability to store information and remember past events is thought to be orchestrate...
Memory formation and reinstatement are thought to lock to the hippocampal theta rhythm, predicting t...
To form an episodic memory, we must first process a vast amount of sensory information about the to-...
Contains fulltext : 56873.pdf (publisher's version ) (Open Access)Although studies...
Theta oscillations (3-9 Hz) in the hippocampus have been posited to mitigate the trade-offs between ...
Gamma oscillations, now widely regarded as functionally relevant signals of the brain, illustrate th...
Neuronal oscillations provide a window for understanding the brain dynamics that organize the flow o...
It is an integral function of the human brain to sample novel information from the environment and t...
The hippocampus contributes to the formation of long term memory. However, exactly how the hippocamp...
Memory retrieval involves the reactivation of memory traces distributed throughout the brain. New re...
An important, but often ignored distinction in the analysis of EEG signals is that between evoked ac...
Rhythmic oscillations are prominent features of information processing in neuronal circuits that hav...
It remains a dogma in cognitive neuroscience to separate human attention and memory into distinct mo...
The increased interest in gamma oscillations, now widely regarded as functionally relevant signals o...
Contains fulltext : 50207.pdf (publisher's version ) (Open Access)Although studies...
The human brain’s ability to store information and remember past events is thought to be orchestrate...
Memory formation and reinstatement are thought to lock to the hippocampal theta rhythm, predicting t...
To form an episodic memory, we must first process a vast amount of sensory information about the to-...
Contains fulltext : 56873.pdf (publisher's version ) (Open Access)Although studies...
Theta oscillations (3-9 Hz) in the hippocampus have been posited to mitigate the trade-offs between ...
Gamma oscillations, now widely regarded as functionally relevant signals of the brain, illustrate th...
Neuronal oscillations provide a window for understanding the brain dynamics that organize the flow o...