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Does daydreaming help consolidate memories?

Recent research conducted in mice suggests that daydreaming may help boost brain plasticity and improve memory consolidation.

California , United-states , United-kingdom , Boston , Massachusetts , Irvine , Hernandez-sorokina-stocksy , Markl-andermann , Dimitris-pinotsis , Keiland-cooper , Department-of-neurobiology , Harvard-medical-school

Escape From Brain Prison III: Could Artificial Brains be Conscious?

Escape From Brain Prison III: Could Artificial Brains be Conscious?
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Earl-miller , David-chalmers , Susan-schneider , Karl-popper , Johnjoe-mcfadden , Thomas-nagel , David-deutsch , David-marr , Dimitris-pinotsis , Oliver-waters , Artificial-you

Brain networks encoding memory come together via electric fields, study finds

Electric fields drive the electrical activity of networks of neurons to produce a shared representation of the information stored in working memory, a new MIT study finds.

Dimitris-pinotsis , Earlk-miller , Us-office-of-naval-research , Department-of-brain , Picower-institute-for , Picower-institute , University-of-london , Cognitive-sciences , Uk-research , Cerebral-cortex , Picower-professor , Naval-research

Brain's electric fields drive neural activity to form memories

The "circuit" metaphor of the brain is as indisputable as it is familiar: Neurons forge direct physical connections to create functional networks, for instance to store memories or produce thoughts. But the metaphor is also incomplete.

United-kingdom , Danielle-ellis , Earlk-miller , Dimitris-pinotsis , Picower-institute , Picower-institute-for , Department-of-brain , University-of-london , United-kingdom-research , Cognitive-sciences , Us-office-of-naval-research , Cerebral-cortex

Research Finds Brain Networks Encoding Memory Come Together via Electric Fields

Research Finds Brain Networks Encoding Memory Come Together via Electric Fields
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United-kingdom , Dimitris-pinotsis , Earlk-miller , University-of-london , Picower-institute-for , Department-of-brain , Picower-institute , Us-office-of-naval-research , Cognitive-sciences , United-kingdom-research , Cerebral-cortex , Picower-professor

Brain networks encoding memory come together via electric fields

Brain networks encoding memory come together via electric fields
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United-kingdom , Dimitris-pinotsis , Earlk-miller , Professor-at-city-university-of-london , Cognitive-sciences , United-kingdom-research , Picower-institute , Us-office-of-naval-research , Department-of-brain , Picower-institute-for , Cerebral-cortex , Picower-professor

Brain networks encoding memory come together via electric fields, study finds

Brain networks encoding memory come together via electric fields, study finds
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Earlk-miller , Dimitris-pinotsis , Dimitrisa-pinotsis , Department-of-brain , University-of-london , Cognitive-sciences , Picower-institute , Cerebral-cortex , Picower-professor , Associate-professor ,

Mind to molecules: Does brain's electrical en

Brain waves carry information. A new “Cytoelectric Coupling” hypothesis posits that fluctuating electric fields optimize brain network efficiency and stability by shaping the brain’s molecular infrastructure.

United-kingdom , Johns-hopkins , Earlk-miller , Dimitris-pinotsis , Us-office-of-naval-research , Picower-institute-for , Method-of-research , University-of-london , United-kingdom-research , Johns-hopkins-university , Picower-professor , Picower-institute

Cytoelectric Coupling: Electrical Fields Fine-Tune Brain Functioning

Scientists present a hypothesis dubbed "Cytoelectric Coupling" suggesting electrical fields within the brain can manipulate neuronal sub-cellular components, optimizing network stability and efficiency.

United-kingdom , David-orenstein , Earlk-miller , Dimitris-pinotsis , Johns-hopkins , Johns-hopkins-university , Us-office-of-naval-research , University-of-london , Picower-institute-for , United-kingdom-research , Cytoelectric-coupling , Picower-institute

Mind to molecules: Does brain's electrical encoding of information 'tune' sub-cellular structure?

Brain waves carry information. A new 'Cytoelectric Coupling' hypothesis posits that fluctuating electric fields optimize brain network efficiency and stability by shaping the brain's molecular infrastructure.

United-kingdom , Dimitris-pinotsis , Johns-hopkins , Earlk-miller , Us-office-of-naval-research , Picower-institute-for , Johns-hopkins-university , United-kingdom-research , City-university-of-london , Picower-professor , Picower-institute , Associate-professor-dimitris-pinotsis