SummaryWorking memory is the ability to actively hold information in the mind. Recent results demonstrate that working memory is organized by oscillatory processes in the theta and gamma frequency range
The increased interest in gamma oscillations, now widely regarded as functionally relevant signals o...
The primary aim of this review is to examine evidence for a functional role of gamma and theta oscil...
Functional imaging has implicated a diverse network of brain regions supporting working memory—the c...
Neural oscillations at different frequencies have recently been related to a wide range of basic and...
Neural oscillations at different frequencies have recently been related to a wide range of basic and...
Functional imaging of human cortex implicates a diverse network of brain regions supporting working ...
A key component of working memory is the ability to remember multiple items simultaneously. To under...
A key component of working memory is the ability to remember multiple items simultaneously. To under...
Successful working memory performance has been related to oscillatory mechanisms operating in low-fr...
Contains fulltext : 56873.pdf (publisher's version ) (Open Access)Although studies...
Contains fulltext : 50207.pdf (publisher's version ) (Open Access)Although studies...
The involvement of oscillatory activity, especially theta and gamma oscillations, in human working m...
The hippocampus contributes to the formation of long term memory. However, exactly how the hippocamp...
Theta-gamma coupling (TGC) is known to reflect working memory processes, but it is unclear whether T...
One of the proposed neural mechanisms involved in working memory is coupling between the theta phase...
The increased interest in gamma oscillations, now widely regarded as functionally relevant signals o...
The primary aim of this review is to examine evidence for a functional role of gamma and theta oscil...
Functional imaging has implicated a diverse network of brain regions supporting working memory—the c...
Neural oscillations at different frequencies have recently been related to a wide range of basic and...
Neural oscillations at different frequencies have recently been related to a wide range of basic and...
Functional imaging of human cortex implicates a diverse network of brain regions supporting working ...
A key component of working memory is the ability to remember multiple items simultaneously. To under...
A key component of working memory is the ability to remember multiple items simultaneously. To under...
Successful working memory performance has been related to oscillatory mechanisms operating in low-fr...
Contains fulltext : 56873.pdf (publisher's version ) (Open Access)Although studies...
Contains fulltext : 50207.pdf (publisher's version ) (Open Access)Although studies...
The involvement of oscillatory activity, especially theta and gamma oscillations, in human working m...
The hippocampus contributes to the formation of long term memory. However, exactly how the hippocamp...
Theta-gamma coupling (TGC) is known to reflect working memory processes, but it is unclear whether T...
One of the proposed neural mechanisms involved in working memory is coupling between the theta phase...
The increased interest in gamma oscillations, now widely regarded as functionally relevant signals o...
The primary aim of this review is to examine evidence for a functional role of gamma and theta oscil...
Functional imaging has implicated a diverse network of brain regions supporting working memory—the c...