Stacking Graphene Creates Entirely New Quantum States

By stacking two layers of graphene, physicists produced entirely new quantum states that they think might help overcome a major hurdle to quantum computers.

Unavoidable Errors

The qubits – the basic units of quantum communication – central to quantum computers are incredibly fragile, prone to switching between states at the slightest disruption.

This has made error correction a major focus of quantum computer developers — they need to find a way to keep the systems functioning even if an individual qubit is corrupted. Not only that, but they have to do so without actually measuring the qubits, since that would destroy their ability to exist in multiple states at once.

No easy task.

But now, a team of U.S. physicists has used the “supermaterial” graphene to uncover several entirely new quantum states — and they think the discovery could lead to quantum computers that don’t need error correction at all.

Super Sandwich

Graphene is a material comprising a single layer of carbon atoms arranged in a hexagonal lattice.

Researchers first isolated it from graphite, the mineral found in most pencils, in 2004, and ever since, they’ve been wowed by graphene’s remarkable properties — despite being so thin and light, it’s incredibly strong and a remarkable conductor of both heat and electricity.

For their study, which was published in the journal Nature Physics on Monday, researchers from Brown and Columbia Universities stacked two layers of graphene on top of one another, separating them with a layer of another two-dimensional material — hexagonal boron nitride — which they also wrapped around the entire graphene sandwich.

When they then blasted the structure with incredibly strong magnetic fields, they found it produced never-before-seen quantum states.

Quantum Computers

The discovery of these new quantum states is a remarkable achievement in and of itself — as researcher Jia Li, an assistant professor of physics at Brown, noted in a press release, “The findings show that stacking 2D materials together in close proximity generates entirely new physics.”

However, the specific states themselves are also remarkable, particularly in terms of the role they could play in the development of quantum computers.

“Of particular interest are several new states that have the potential of hosting non-Abelian wave functions — states that don’t quite fit the traditional composite fermion model,” Jim Hone, a professor of mechanical engineering at Columbia, said in the press release.

Electrons in non-Abelian states are able to “remember” their past positions in relation to one another, according to the press release, and that ability could lead to the creation of quantum computers that don’t need error correction at all — eliminating one of the major hurdles between us and these incredibly powerful devices.

READ MORE: Research Reveals Exotic Quantum States in Double-Layer Graphene [Columbia University]

More on graphene: Graphene Could Be the Superconductor Scientists Always Dreamed Of

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