Spiraling waves of neural activity appear and travel in the brain. Scientists hope to learn if these rotating waves on the move play a global role in sensing and interpreting internal and external ...
When a mouse sweeps a single whisker across a textured surface, a tight cluster of neurons in its brain lights up within milliseconds. That cluster sits inside a grid of cortical columns, each one ...
Researchers discover rotating spiral brain waves that travel across cortical networks, acting as a space-and-time clock for ...
The passage of time is sensed, perceived, and experienced, but—unlike for touch, vision, hearing, and olfaction—there exist no sensory receptors for time. This fact has long tantalized neuroscientists ...
The neuronal mechanisms underlying the feeling of the elapsed time of sensory events remain unknown. If the neuronal substrate for perceived time is envisioned as a distributed network 1,2 rather than ...
Optical imaging and optogenetic inactivation of dorsal mouse neocortex reveal an unexpected role for retrosplenial cortex in the context-dependent transformation of whisker sensory information into ...
During perceptually guided decisions, correlates of choice are found as upstream as in the primary sensory areas. However, how well these choice signals align with early sensory representations, a ...
Spiraling waves of neural activity appear and travel in the brain. Scientists hope to learn if these rotating waves on-the-move play a global role in ...