A new study shows terahertz data links are possible even without direct line-of-sight between transmitter and receiver, a promising finding for future ultra-high-capacity terahertz data networks.
A study of a New Zealand volcano suggests that a volcanic system's response to tidal forces could provide a tool for predicting a certain type of eruption.
Technology known as deep learning has fueled an AI revolution, but a workshop series kicking off at Brown this week will consider where the field might go from here.
Brown University researchers show how nuclear magnetic resonance probes can be optimized for studying the properties of nanomaterials and strange states of matter.
New research suggests that the bulk of clay minerals on Mars could have been formed as the planet’s crust cooled and solidified, not by later interactions with water on the surface as has long been assumed.
The detection of gravitational waves has given astronomers a new way of looking at the universe, and a new study shows how these ripples in the fabric of spacetime might confirm or rule out the existence of a certain type of black hole.
Subduction--the sliding of one tectonic plate beneath another--is possible on the ice shell of Jupiter's moon Europa, a new study shows. The process could supply chemical food for life to a subsurface ocean.
