A trapped-ion pair may help scale up quantum computers
Qubits made from strontium and calcium ions can be precisely controlled by technology that already exists.
Qubits made from strontium and calcium ions can be precisely controlled by technology that already exists.
MIT sophomore Rachel Shen looks for microscopic solutions to big environmental challenges.
Solar panel costs have dropped lately, but slimming down silicon wafers could lead to even lower costs and faster industry expansion.
Study suggests noninvasive spectroscopy could be used to monitor blood glucose levels.
The rate of passenger fatalities has declined yet again in the last decade, accelerating a long-term trend.
Deborah Hung shares research strategies to combat tuberculosis as part of the Department of Biology's IAP seminar series on microbes in health and disease.
Computer scientists’ new method could help doctors avoid ineffective or unnecessarily risky treatments.
A 3D printing system that controls the behavior of live bacteria could someday enable medical devices with therapeutic agents built in.
Model tags road features based on satellite images, to improve GPS navigation in places with limited map data.
MIT researchers review renewable energy and carbon pricing policies as states consider repealing or relaxing renewable portfolio standards.
Researchers find master regulator needed for Toxoplasma gondii parasite to chronically infect host; promising step toward infection treatment, prevention.
The same neurons responsible for encoding reward also form new memories to suppress fearful ones.
U.S. elections have become more “unstable,” sometimes swinging in the opposite direction from the greater electorate’s preferences.
New light-sensitive material could eliminate some of the endoscopic procedures needed to remove gastrointestinal devices.
Wielding complex algorithms, nuclear science and engineering doctoral candidate Nestor Sepulveda spins out scenarios for combating climate change.