Cornell researchers tallied the environmental benefits of New York City’s congestion pricing program and found air pollution dropped by 22% in Manhattan, with additional declines across the city’s five boroughs and surrounding suburbs.
Using time-delay snapshots, researchers led by mathematician Yunan Yang have introduced a new way to identify the underlying dynamics of unpredictable systems, such as the atmosphere and turbulent fluids.
An international collaboration led by Cornell researchers used a combination of psilocybin and the rabies virus to map how – and where – the psychedelic compound rewires the connections in the brain.
The president of the Camille and Henry Dreyfus Foundation will present Abruña with the award in a 4 p.m. ceremony in the Meshri Family Auditorium, Baker Laboratory Room 200 and also livestreamed.
By studying the theoretical limits of how light can be used to perform computation, Cornell researchers have uncovered new insights and strategies for designing energy-efficient optical computing systems.
To equip astronauts with health choices for future missions, a Cornell postdoctoral fellow is leading research with AstroCup, a group that recently tested two menstrual cups in spaceflight as payload on an uncrewed rocket flight.
Tianyi Chen is pushing the boundaries of artificial intelligence by asking a pressing question: What if AI could be engineered not just to optimize for a single outcome, but to make smarter, more balanced decisions — much like humans do?
The Northeastern Robotics Conference (NERC), held Saturday, Oct. 11 at Cornell, featured more than 100 robots research projects from the region, including a shadowboxing droid and a backflipping robot dog.
Electrons can be elusive, but Cornell researchers using a new computational method can now account for where they go – or don’t go – in certain layered materials.