Scientists have unveiled a cutting-edge quantum microscope that allows them to observe how electrons interact with strange ...

For two layers of graphene, her team found that the superconducting current is much “stiffer” – it resists change more – than ...

For two layers of graphene, her team found that the superconducting current is much “stiffer” – it resists change more – than ...

Scientists use a novel cryogenic Quantum Twisting Microscope to reveal how electrons interact with phasons in twisted ...

Together, they have started progressing toward a better description of superconductivity in graphene. Part of the problem has been that it is hard to make large pieces of multi-layer graphene.

Scientists at the Weizmann Institute of Science have created a powerful new microscope that allows them to watch the tiniest ...

Superconductivity: The discovery of superconductivity in twisted bilayer graphene was a game changer. Superconductivity, a state in which materials conduct electricity without resistance, typically ...

In new research published this week in Nature , Weizmann Institute scientists introduce a powerful tool to explore quantum phenomena — the cryogenic ...

These findings shed new light on the mysterious superconductivity and “strange metallicity” that emerge when graphene sheets are rotated to the “magic angle.” The fundamental properties of ...

These findings shed new light on the mysterious superconductivity and strange metallicity that emerge when graphene sheets are rotated to the magic angle. The fundamental properties of materials ...