A new mathematical model sheds light on how the brain processes different cues, such as sights and sounds, during decision making. The findings from Princeton neuroscientists may one day improve how ...

A new mathematical model sheds light on how the brain processes different cues, such as sights and sounds, during decision making. The findings from Princeton neuroscientists may one day improve how ...

A cross-disciplinary team led by Prof. Qu Jianan from the Department of Electronic and Computer Engineering and Prof. Julie L ...

The rapid advancement of spatial and single-cell omics technologies has revolutionized molecular biosciences by enabling high-resolution profiling of gene ...

Researchers at UC Santa Barbara are coming ever closer to uncovering the neural circuitry that translates stimulus to action, shining light on previously unseen neural connections and lesser-known fun ...

Scientists studying human neural organoids could only record and stimulate activity from limited regions because conventional flat electronics do not conform well to the tissues’ three-dimensional, ...

Neural circuits are refined by experience with higher plasticity at younger ages. Non-neuronal brain cells, known as astrocytes, were previously seen as passive support cells, but recent research has ...