Creating dynamic symmetry in quantum systems
MIT researchers develop a new way to control and measure energy levels in a diamond crystal; could improve qubits in quantum computers.
MIT researchers develop a new way to control and measure energy levels in a diamond crystal; could improve qubits in quantum computers.
Graduate student Nicholas Kamp describes the MicroBooNE experiment and its implications for our understanding of fundamental particles.
A new RNA-based control switch could be used to trigger production of therapeutic proteins to treat cancer or other diseases.
A visual analytics tool helps child welfare specialists understand machine learning predictions that can assist them in screening cases.
Awards support research to improve the efficiency, scalability, and adoption of clean energy technologies.
The technology could be developed as a rapid diagnostic for Covid-19 or other emerging pathogens.
Periodically catching up on sleep can improve gait control for the chronically sleep-deprived.
The method could be a route to quicker, less invasive cancer diagnoses.
Neuroscientists find the internal workings of next-word prediction models resemble those of language-processing centers in the brain.
Mergers between two neutron stars have produced more heavy elements in last 2.5 billion years than mergers between neutron stars and black holes.
MIT-led team finds holistic optimization of electric power and hydrogen supply chain infrastructure is favorable for emission reductions and decreased infrastructure costs.
Fossils indicate a communal nesting ground and adults who foraged and took care of the young as a herd, scientists say.
A new study finds cutting off cells’ supplies of lipids can slow the growth of tumors in mice.
Such planetary smashups are likely common in young solar systems, but they haven’t been directly observed.
By combining chemotherapy, tumor injury, and immunotherapy, researchers show that the immune system can be re-engaged to destroy tumors in mice.