MIT physicists have discovered a new magnetic state in an antiferromagnetic material using terahertz light, opening doors to ...

Researchers propose a novel mechanism for non-reciprocal optical devices without magnetic fields through nonlinear ...

Researchers at MIT have successfully induced a durable magnetic state in an antiferromagnetic material using terahertz light.

This assumption simplifies the modeling process by neglecting the induced magnetic fields; however, recent findings suggest that this may not always be appropriate, particularly under certain flow ...

Use precise geolocation data and actively scan device characteristics for identification. This is done to store and access information on a device and to provide personalised ads and content, ad and ...

Research is being done into the influence and possible utilization of Earth’s magnetic field to harvest energy through ...

Scientists successfully induced a new magnetic state in an antiferromagnet ... are robust and not influenced by unwanted stray magnetic fields,” Nuh Gedik, senior author of the study and MIT ...

Using synchrotron infrared light and near-infrared/visible lasers without applying a magnetic field, we observed the response of valence electrons in the (C₂H₅)(CH₃)₃As[Pd(C₃S₅ ...

Scientists from the (MPSD) and MIT have achieved a groundbreaking feat — creating a stable, long-lasting magnetic state in an ...

The SMART (Small Aspect Ratio Tokamak) reactor – an experimental fusion device designed, built and operated by the Plasma ...

Physicists in the US, Europe and Korea have produced a long-lasting light-driven magnetic state in an antiferromagnetic material for the first time. While their project started out as a fundamental ...