Physicists arrange atoms in extremely close proximity
The technique opens possibilities for exploring exotic states of matter and building new quantum materials.
The technique opens possibilities for exploring exotic states of matter and building new quantum materials.
Three neurosymbolic methods help language models find better abstractions within natural language, then use those representations to execute complex tasks.
The advance offers a way to characterize a fundamental resource needed for quantum computing.
Researchers have developed a security solution for power-hungry AI models that offers protection against two common attacks.
A new technique can be used to predict the actions of human or AI agents who behave suboptimally while working toward unknown goals.
MIT researchers plan to search for proteins that could be used to measure electrical activity in the brain.
Screen-reader users can upload a dataset and create customized data representations that combine visualization, textual description, and sonification.
The behavior of granular materials has been difficult to visualize, but a new method reveals their internal forces in 3D detail.
FeatUp, developed by MIT CSAIL researchers, boosts the resolution of any deep network or visual foundation for computer vision systems.
A study of people in 15 countries reveals that while everyone favors rhythms with simple integer ratios, biases can vary quite a bit across societies.
An exotic electronic state observed by MIT physicists could enable more robust forms of quantum computing.
An easy-to-use technique could assist everyone from economists to sports analysts.
MIT engineers developed a tag that can reveal with near-perfect accuracy whether an item is real or fake. The key is in the glue on the back of the tag.
Researchers developed a simple yet effective solution for a puzzling problem that can worsen the performance of large language models such as ChatGPT.
Scientists quantify a previously overlooked driver of human-related mercury emissions.