Skyrmions move at record speeds: a step towards the computing of the future

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Research
On  April 19, 2024
Antiferromagnetic skyrmions in a racetrack moved by an electrical current (credit Bruno Bourgeois)
An international research team led by scientists from the CNRS1 has discovered that the magnetic nanobubbles2 known as skyrmions can be moved by electrical currents, attaining record speeds up to 900 m/s.

Anticipated as future bits in computer memory, these nanobubbles offer enhanced avenues for information processing in electronic devices. Their tiny size4 provides great computing and information storage capacity, as well as low energy consumption.

Until now, these nanobubbles moved no faster than 100 m/s, which is too slow for computing applications. However, thanks to the use of an antiferromagnetic material3 as medium, the scientists successfully had the skyrmions move 10 times faster than previously observed.

These results, which were published in Science on 19 March, offer new prospects for developing higher-performance and less energy-intensive computing devices.

This study is part of the SPIN national research programme5 launched on 29 January, which supports innovative research in spintronics, with a view to helping develop a more agile and enduring digital world.

Article published on the cnrs website
1 – The French laboratories involved are SPINTEC (CEA/CNRS/Université Grenoble Alpes), the Institut Néel (CNRS), and the Charles Coulomb Laboratory (CNRS/Université de Montpellier).
2 – A skyrmion consists of elementary nanomagnets (“spins”) that wind to form a highly stable spiral structure, like a tight knot.
3 – Antiferromagnetic stacks consist of two nano-sized ferromagnetic layers (such as cobalt) separated by a think non-magnetic layer, with opposite magnetisation. 
4 – The size of a skyrmion can reach a few nanometres, which is to say approximately a dozen atoms.
5 – The SPIN priority research programme and equipment (PEPR) is an exploratory programme in connection with the France 2030 investment plan.
Published on  April 22, 2024
Updated on  July 2, 2024