It has been known for nearly 20 years that slow, synchronous electrical waves in the brain during deep sleep support the ...

If you are ever able to upload your memory to the cloud, there will have to be proven science that defines the physical basis ...

Novel memristors using phosphorus-modified graphene switch between memory states through controlled silver ion interactions, ...

Summary: New research shows that slow-wave sleep strengthens synaptic connections in the neocortex, making it more receptive to long-term memory formation. Researchers found that during deep sleep, ...

The tagging system lit up all astrocytes that expressed the c-Fos gene in response to fear conditioning. Williamson’s team ...

"Interestingly, synapses that undergo changes also affect ... or remove irrelevant information—the basis for learning and ...

Researchers suggest that slow excitation waves make the cerebral cortex, the seat of long-term memory, particularly receptive ...

196), he writes: “These domain-specific kinds of short-term memory processes may underlie ... “You are your synapses. They are who you are.” Well, yes; if we have to replace 'brain' with ...

At this connection, messenger molecules in the form of neurotransmitters facilitate communication, eventually triggering the formation and storage of memory down the line. Mossy fiber synapses are ...

Excitatory synapses are located in confined chemical spaces called the dendritic spines. These are atypical femtoliter-order microdomains where the behavior of even single molecules may have ...

Synapses are gaps between neurons that facilitate ... Activating just one neuron in an engram activates the entire network and triggers a memory. It was first thought that neurons must fire ...

The brain uses ions, chemicals and water to make its calculations and store 'memory' whereas artificial computers use electrons in their operation. The emerging field of nanofluidic computing, also ...