The superconductivity of layered graphene is surprisingly unusual

Why do chilly skinny sheets of carbon supply no resistance to electrical currents? Two experiments are bringing us nearer to a solution – and possibly even to sensible room-temperature superconductors.

Kin Chung Fong at Northeastern College in Massachusetts was shocked when one other physicist, Abhishek Banerjee at Harvard College, instructed him a quantity over dinner. They had been finding out completely different points of graphene – sheets of carbon just one atom thick – however each made the identical estimate about how laborious it needs to be for an electrical present flowing by means of graphene to immediately change.

Previous experiments have proven that very chilly stacks of two or three layers of graphene can superconduct, or completely conduct electrical energy with out resistance and power loss, if among the sheets are rotated by a particular angle. However why this occurs remained mysterious. The 2 physicists thought the property they estimated at dinner, known as kinetic inductance, would possibly illuminate the reply.

“The feeling was like when you are in a wood hiking [through] the forest, and suddenly you find, well, wait a minute, I’m not the only person in this deep forest,” says Fong.

Along with different colleagues, they turned their thought into two experiments. One group measured kinetic inductance for 2 layers of stacked-and-twisted graphene; a second group targeted on three layers.

Joel Wang on the Massachusetts Institute of Expertise, who was within the group that labored on two-ply graphene, says that measuring kinetic inductance had beforehand been prohibitively troublesome. As a result of multilayer graphene can solely be produced in very small items, normal strategies for measuring its superconducting currents – akin to exposing it to particles or magnetic fields – produced excessively weak alerts. As a substitute, each groups needed to innovate a setup the place the tiny graphene flakes had been uncovered to microwaves whereas the researchers slowly different properties like temperature, which should be stored very low for superconductivity to happen in any respect.

We all know that multilayer graphene superconducts as a result of the electrons within it pair up, and these pairs stream in currents extra simply than particular person particles. However electrons sometimes repel one another. How precisely the particles come collectively and what properties these pairs have remains to be not understood.

“Theory is [running] behind experiments here,” says Miuko Tanaka on the College of Tokyo, who was additionally within the two-ply group.

For 2 layers of graphene, her staff discovered that the superconducting present is way “stiffer” – it resists change extra – than is predicted by any standard idea of superconductivity. They traced this anomaly again to one thing known as quantum geometry. Particularly, the form of the electrons’ wavefunctions, which encode all their properties and doable behaviours, appeared to drive this unique sort of superconductivity.

In trilayer graphene, researchers discovered shocking similarities between the kinetic inductance of their pattern and the behaviour of a household of utterly completely different superconductors – ones that preserve their particular properties at a lot larger temperatures.

Due to this, each Banerjee and Tanaka say these experiments might do greater than make clear why graphene superconducts – they may additionally reveal key properties required for room-temperature superconductors. Physicists have been trying to find such supplies for many years within the hope that utilizing them might radically lower the power consumption of many gadgets.

“We are finding interesting laws which seem to emerge in both these material systems. Maybe what we are uncovering is something deeper,” says Banerjee. Each groups are planning on performing comparable experiments with different very skinny superconductors.

“Recently, there have been so many new two-dimensional superconductors that are interesting, surprising and kind of unusual,” says Zeyu Hao, additionally at Harvard College, who was on the staff researching three-layer graphene. For instance, earlier this month a distinct staff printed analysis exhibiting that two-layered crystals of a fabric known as tungsten diselenide exhibit superconductivity when the layers are twisted relative to at least one one other.

Within the meantime, Hao’s colleague Mary Kreidel, now at NASA Jet Propulsion Laboratory in California, already has an utility in thoughts for stacked-and-twisted graphene. She is engaged on particle detectors for area missions, a lot of which use superconductors. They may very well be made smaller and lighter – a vital benefit in area flight – in the event that they had been comprised of multilayer graphene, she says.