New method visualizes groups of neurons as they compute
Fluorescent probe could allow scientists to watch circuits within the brain and link their activity to specific behaviors.
Fluorescent probe could allow scientists to watch circuits within the brain and link their activity to specific behaviors.
Model from the Computer Science and Artificial Intelligence Laboratory identifies “serial hijackers” of internet IP addresses.
Clumps of amyloid protein emerge early in deep regions, such as the mammillary body, and march outward in the brain along specific circuits.
New book examines the past and future of Japanese intelligence services in a rapidly shifting world.
Coated pill carries microneedles that deliver insulin and other drugs to the lining of the small intestine.
Study of minerals widely used in industrial processes could lead to discovery of new materials for catalysis and filtering.
Studying a common material at room temperature, researchers bring quantum behavior “closer to our daily life.”
MIT engineers develop a model that predicts how the cornstarch-water mixture turns from liquid to solid, and back again.
Ultrathin coating could protect 2D materials from corrosion, enabling their use in optics and electronics.
Associate Professor Juejun Hu shines a light on the impact machine learning and AI are having on materials science and engineering.
New method from MIT’s research enterprise in Singapore paves the way for improved optoelectronic and 5G devices.
Testing platform will allow the research community to explore the human microbiome in new ways.
By tweaking bacteriophage genomes, MIT team creates a new weapon to combat infection.
Scientists simulate early galaxy formation in a universe of dark matter that is ultralight, or “fuzzy,” rather than cold or warm.
Connected devices can now share position information, even in noisy, GPS-denied areas.