Scientists observe a single quantum vibration under ordinary conditions
Studying a common material at room temperature, researchers bring quantum behavior “closer to our daily life.”
Studying a common material at room temperature, researchers bring quantum behavior “closer to our daily life.”
Researchers integrate diamond-based sensing components onto a chip to enable low-cost, high-performance quantum hardware.
New detection tool could be used to make quantum computers robust against unwanted environmental disturbances.
Observation of the predicted non-Abelian Aharonov-Bohm Effect may offer step toward fault-tolerant quantum computers.
Shining light through household bleach creates fluorescent quantum defects in carbon nanotubes for quantum computing and biomedical imaging.
MIT’s Senthil Todadri and Xiao-Gang Wen will study highly entangled quantum matter in a collaboration supported by the Simons Foundation.
New dual-cavity design emits more single photons that can carry quantum information at room temperature.
Shor awarded the $150,000 prize, named after a fifth-century B.C. Chinese scientist, for his groundbreaking theoretical work in the field of quantum computation.
MIT researchers find a new way to make nanoscale measurements of fields in more than one dimension.
Efficient chip enables low-power devices to run today’s toughest quantum encryption schemes.
The prestigious awards are supporting five innovative projects that challenge established norms and have the potential to be world-changing.
Approach developed by MIT engineers surmounts longstanding problem of light scattering within biological tissue and other complex materials.
William Oliver says a lack of available quantum scientists and engineers may be an inhibitor of the technology’s growth.
First measurement of its kind could provide stepping stone to practical quantum computing.