Credit card-sized device focuses terahertz energy to generate high-resolution images
The advance may enable real-time imaging devices that are smaller, cheaper, and more robust than other systems.
The advance may enable real-time imaging devices that are smaller, cheaper, and more robust than other systems.
A new study sheds light on how a protein pumps toxic molecules out of bacterial cells.
Lincoln Laboratory leads a large-scale measurement campaign in New York City to improve air dispersion models and emergency protocols.
Different types of these branch-like projections process incoming information in different ways before sending it to the body of the neuron.
MIT researchers find activating a specific acetylcholine receptor in the brain reduces cocaine use in rodents.
A new analysis offers guidance on the size of nanoparticles that could be most effective at stopping internal bleeding.
A new deep-learning algorithm trained to optimize doses of propofol to maintain unconsciousness during general anesthesia could augment patient monitoring.
Researchers with the KATRIN experiment determine that neutrinos are lighter than 0.8 eV/c2.
Passive solar evaporation system could be used to clean wastewater, provide potable water, or sterilize medical tools in off-grid areas.
Single-cell gene expression analyses of human cerebrovascular cells can help reveal new drug targets for Huntington’s disease.
A subset of the finalists will be announced as multiyear flagship projects this spring.
Scientists including MIT’s Jacqueline Hewitt and Nicholas Kern share long-awaited results, getting closer to the universe’s first stars.
The act of holding information in mind is accompanied by coordination of rotating brain waves in the prefrontal cortex, a phenomenon that may convey specific advantages, a new study suggests.
The material could pave the way for sustainable plastics.
National Science Foundation award will allow the VELION FIB-SEM to become a permanent instrument in MIT.nano’s characterization facility.