A stealthy way to combat tumors
MIT biologists show that helper immune cells disguised as cancer cells can help rejuvenate T cells that attack tumors.
MIT biologists show that helper immune cells disguised as cancer cells can help rejuvenate T cells that attack tumors.
A new study confirms that as atoms are chilled and squeezed to extremes, their ability to scatter light is suppressed.
PhD student's research centers on ethics, including bioethics, and the philosophy of action.
A life-detecting radar, a microscale motor, and a quantum network architecture are among this year's most innovative new technologies.
New work on linear-probing hash tables from MIT CSAIL could lead to more efficient data storage and retrieval in computers.
Researchers analyze and compare pre- and post-pandemic data for introductory biology MOOC 7.00x.
In spreading politics, videos may not be much more persuasive than their text-based counterparts.
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.