International audienceBeta oscillations (ϳ13 to 30 Hz) have been observed during many perceptual, cognitive, and motor processes in a plethora of brain recording studies. Although the function of beta oscillations (hereafter "beta" for short) is unlikely to be explained by any single monolithic description, we here discuss several convergent findings. In prefrontal cortex (PFC), increased beta appears at the end of a trial when working memory information needs to be erased. A similar "clear-out" function might apply during the stopping of action and the stopping of long-term memory retrieval (stopping thoughts), where increased prefrontal beta is also observed. A different apparent role for beta in PFC occurs during the delay period of work...
The ability to represent and select information in working memory provides the neurobiological infra...
The spatiotemporal dynamics of ongoing beta band (15-30 Hz) cortical oscillations and the modulation...
Voluntary movement is accompanied by changes in the degree to which neurons in the brain synchronize...
International audienceBeta oscillations (ϳ13 to 30 Hz) have been observed during many perceptual, co...
Beta oscillations (∼13 to 30 Hz) have been observed during many perceptual, cognitive, and motor pro...
Beta oscillations (~13 to 30Hz) have been observed during many perceptual, cognitive and motor proc...
International audienceSince the first descriptions of sensorimotor rhythms by Berger (1929) and by J...
Contains fulltext : 181700.pdf (publisher's version ) (Open Access)Among the rhyth...
Thesis (Ph. D.)--Harvard-MIT Division of Health Sciences and Technology, 2011.Cataloged from PDF ver...
SummaryBrain oscillations across all frequency bands play a key role for memory formation [1–4]. Spe...
Mnemonic operations are vital in our everyday life and comprise a vast array of sub-processes that n...
Beta oscillations have been predominantly observed in sensorimotor cortices and basal ganglia struc...
Brain oscillations across all frequency bands play a key role for memory formation [1, 2, 3, 4]. Spe...
Frontal beta oscillations are associated with top-down control mechanisms but also change over time ...
F.M.S. and C.R.E.W. contributed equally to this work (co-first authors). Frontal beta oscillations a...
The ability to represent and select information in working memory provides the neurobiological infra...
The spatiotemporal dynamics of ongoing beta band (15-30 Hz) cortical oscillations and the modulation...
Voluntary movement is accompanied by changes in the degree to which neurons in the brain synchronize...
International audienceBeta oscillations (ϳ13 to 30 Hz) have been observed during many perceptual, co...
Beta oscillations (∼13 to 30 Hz) have been observed during many perceptual, cognitive, and motor pro...
Beta oscillations (~13 to 30Hz) have been observed during many perceptual, cognitive and motor proc...
International audienceSince the first descriptions of sensorimotor rhythms by Berger (1929) and by J...
Contains fulltext : 181700.pdf (publisher's version ) (Open Access)Among the rhyth...
Thesis (Ph. D.)--Harvard-MIT Division of Health Sciences and Technology, 2011.Cataloged from PDF ver...
SummaryBrain oscillations across all frequency bands play a key role for memory formation [1–4]. Spe...
Mnemonic operations are vital in our everyday life and comprise a vast array of sub-processes that n...
Beta oscillations have been predominantly observed in sensorimotor cortices and basal ganglia struc...
Brain oscillations across all frequency bands play a key role for memory formation [1, 2, 3, 4]. Spe...
Frontal beta oscillations are associated with top-down control mechanisms but also change over time ...
F.M.S. and C.R.E.W. contributed equally to this work (co-first authors). Frontal beta oscillations a...
The ability to represent and select information in working memory provides the neurobiological infra...
The spatiotemporal dynamics of ongoing beta band (15-30 Hz) cortical oscillations and the modulation...
Voluntary movement is accompanied by changes in the degree to which neurons in the brain synchronize...