Nanoscale transistors could enable more efficient electronics
Researchers are leveraging quantum mechanical properties to overcome the limits of silicon semiconductor technology.
Researchers are leveraging quantum mechanical properties to overcome the limits of silicon semiconductor technology.
Assistant Professor Ethan Peterson is addressing some of the practical, overlooked issues that need to be worked out for viable fusion power plants.
Two faculty, a graduate student, and 10 additional alumni receive top awards and prizes; four faculty, one senior researcher, and seven alumni named APS Fellows.
Experts in energy systems modeling and fusion technology explore the future role of fusion at various costs and carbon constraints.
After an illustrious career at Idaho National Laboratory spanning three decades, Curtis Smith is now sharing his expertise in risk analysis and management with future generations of engineers at MIT.
Anthropologists Manduhai Buyandelger and Lauren Bonilla discuss the humanistic perspective they bring to a project that is yielding promising results.
Today’s regulations for nuclear reactors are unprepared for how the field is evolving. PhD student Liam Hines wants to ensure that policy keeps up with the technology.
A new family of integrated rock salt-polyanion cathodes opens door to low-cost, high-energy storage.
Rising senior and Army ROTC cadet Alexander Edwards and Aneal Krishnan ’02 discuss a new UROP fellowship with the Institute for Soldier Nanotechnologies.
MIT researchers have found a way to make structural materials last longer under the harsh conditions inside a fusion reactor.
An MIT-led group shows how to achieve precise control over the properties of Weyl semimetals and other exotic substances.
To understand how everything from atoms to neutron stars behave, he says, requires “abstracting away the details to see main principles that drive everything.”
Analysis and materials identified by MIT engineers could lead to more energy-efficient fuel cells, electrolyzers, batteries, or computing devices.
The approach could help engineers design more efficient energy-conversion systems and faster microelectronic devices, reducing waste heat.
Thomas Varnish has always loved a hands-on approach to science. Research in lab-based astrophysics has enabled the PhD student to experiment in a heavily theoretical subject.