Booting up spin-based device studies
Summer Scholar Grant Smith works to establish parameters for making ferromagnetic thin films in the Luqiao Liu lab.
Summer Scholar Grant Smith works to establish parameters for making ferromagnetic thin films in the Luqiao Liu lab.
If discovered, sterile neutrinos may explain dark matter.
MIT-led team demonstrates paired topology and intrinsic magnetism in compound combining gadolinium, platinum, and bismuth.
MIT researchers develop a “physical cryptography” for secure and accurate accounting of the world’s nuclear arsenals.
Neutrinos traveling 450 miles have no individual identities, according to MIT analysis.
From proton packs to hidden props, the 2016 blockbuster draws upon MIT personalities and scientific panache.
Some “forbidden” light emissions are in fact possible, could enable new sensors and light-emitting devices.
Researchers demonstrate room-temperature ferroelectric states in ultra-thin films of tin and tellurium.
Scientists find gas at center of Perseus cluster travels much more slowly than expected.
New research finds interactions between microorganisms and marine particles may have significant effects on oceanic carbon cycling.
Physicist has a fascination for the complexities of turbulence, and how to reduce it in fusion reactors.
A new MIT project taps into particle collisions to generate music and forge harmony between science and art.
Scanners more rapidly and accurately identify radioactive materials at U.S. borders, events.