New material could be two superconductors in one
Work has potential applications in quantum computing, and introduces new way to plumb the secrets of superconductivity.
Work has potential applications in quantum computing, and introduces new way to plumb the secrets of superconductivity.
The new molecule can improve the yield of reactions for generating pharmaceuticals and other useful compounds.
Study suggests this area of the visual cortex emerges much earlier in development than previously thought.
MIT biologists show that enlargement of blood stem cells restricts their ability to generate new blood cells during aging.
By incorporating the scattering of RF waves into fusion simulations, MIT physicists improve heating and current drive predictions for fusion plasmas.
Human neurons have fewer ion channels, which might have allowed the human brain to divert energy to other neural processes.
Collaborative team wins prestigious NIH grant to investigate the physical forces that influence metastatic cancer.
Study underscores need for aggressive climate mitigation and adaptation policies to prevent future “Day Zero” droughts in dry, populated regions around the world.
A new machine-learning system helps robots understand and perform certain social interactions.
A screening method developed by MIT researchers targets hydrogen peroxide in the search for new cancer therapeutics.
Reducing the complexity of a powerful machine-learning model may help level the playing field for automatic speech-recognition around the world.
The findings may help explain why some people who lead enriching lives are less prone to Alzheimer’s and age-related dementia.
Biogen’s support is part of the biotechnology company’s Healthy Climate, Healthy Lives Initiative.
Ultrastable and made of inexpensive, nontoxic elements, chalcogenide perovskites could find applications in solar cells, lighting, and more.
A new method forces a machine learning model to focus on more data when learning a task, which leads to more reliable predictions.