Electronics

Magic angle makes graphene simultaneously superconducting and insulating

Magic angle makes graphene simultaneously superconducting and insulating
Researchers have created graphene electronic devices that are both insulators and superconductors at the same time, in different parts of the material
Researchers have created graphene electronic devices that are both insulators and superconductors at the same time, in different parts of the material
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Researchers have created graphene electronic devices that are both insulators and superconductors at the same time, in different parts of the material
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Researchers have created graphene electronic devices that are both insulators and superconductors at the same time, in different parts of the material
The team demonstrated the new graphene technique by making Josephson junctions, devices where two superconductors are separated by an ultra thin insulator
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The team demonstrated the new graphene technique by making Josephson junctions, devices where two superconductors are separated by an ultra thin insulator

Graphene just keeps getting weirder. Engineers at ETH Zurich have now managed to tweak the overachieving material so that some parts of a flake can be an electrical insulator while other areas act as a superconductor, just nanometers apart. The team demonstrated the breakthrough by making electronic components out of graphene.

For all its superpowers, graphene is deceptively simple – it’s a two-dimensional sheet of cross-linked carbon atoms. But that makes it an excellent conductor of electricity and heat, and it’s super strong and flexible to boot.

But in 2018, an MIT team discovered a bizarre new wrinkle to the story. By stacking two layers of graphene and then twisting them to precisely 1.06 degrees off-kilter, the material became insulating – until a certain voltage was applied, at which point it suddenly switched to become superconductive.

Known as “magic angle twisted bilayer graphene,” this specific form of the material was later found to exhibit a previously unseen form of magnetism, and in another study the researchers found the effects were more pronounced if more sheets were stacked up.

In the new study, the ETH Zurich researchers have shown that they can turn a single flake of this graphene into both an insulator and a superconductor at the same time, with different sections displaying different properties mere nanometers apart.

The team demonstrated the new graphene technique by making Josephson junctions, devices where two superconductors are separated by an ultra thin insulator
The team demonstrated the new graphene technique by making Josephson junctions, devices where two superconductors are separated by an ultra thin insulator

To make the graphene switch its conductivity, the team applies different voltages to different areas. In doing so, they managed to create Josephson junctions, electronic components consisting of two superconductors separated by a thin insulator. A tiny amount of the current will jump across the insulator, thanks to the quirk of quantum tunneling.

Normally, these junctions are made using several different materials, but the researchers were able to build one on a single flake of graphene. Next up, the team plans to create a more advanced component called a superconducting quantum interface device (SQUID), which is made up of two connected Josephson junctions in a ring shape. These could be useful for building quantum computers.

The research was published in the journal Nature Nanotechnology.

Source: ETH Zurich

2 comments
2 comments
Douglas Rogers
I heard about Josephson junctions all the time in the 1970's and wondered where they went!
guzmanchinky
The science behind this is simply mind boggling...