Simple superconducting device could dramatically cut energy use in computing, other applications
The ultrasmall “switch” could be easily scaled.
The ultrasmall “switch” could be easily scaled.
Professor of physics will use US Department of Defense fellowship to study quantum science with ultracold atoms.
By fine-tuning the spin density in some materials, researchers may be able to develop new quantum sensors or quantum simulations.
A new technique produces perovskite nanocrystals right where they’re needed, so the exceedingly delicate materials can be integrated into nanoscale devices.
The foundry gives the wider research community access to Lincoln Laboratory’s expertise in fabricating quantum circuits.
New research explores how Dyson maps are putting quantum computers to work in designing fusion energy devices.
The device emits a stream of single photons and could provide a basis for optical quantum computers.
Recipients Luis Antonio Benítez, Carolina Cuesta-Lazaro, and Fernando Romero López receive support for their scientific research.
Physicist Daniel Harlow explores an alternate quantum reality in search of fundamental truths to our physical universe.
Undergraduate research helped feed physics and EECS major Thomas Bergamaschi’s post-MIT interest in tackling challenges.
Citadel founder and CEO Ken Griffin visits MIT, discusses how technology will continue to transform trading and investing.
Work with skyrmions could have applications in future computers and more.
In MIT’s 2023 Killian Lecture, Peter Shor shares a brief history of quantum computing from a personal viewpoint.
The second annual student-industry conference was held in-person for the first time.
A wireless technique enables a super-cold quantum computer to send and receive data without generating too much error-causing heat.