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Friday, August 23, 2019

Researchers observe spontaneous occurrence of skyrmions in atomically thin cobalt films



Researchers observe spontaneous occurrence of skyrmions in atomically thin cobalt films

Fig. 1: Illustration of a magnetic skyrmion with a diameter of only a few nanometres in an atomically thin cobalt film. The small colored cones represent the "atomic magnets" of each cobalt atom. Credit: S. Meyer, Uni Kiel
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Since their experimental discovery, magnetic skyrmions—tiny magnetic knots—have moved into the focus of research. Scientists from Hamburg and Kiel have now been able to show that individual magnetic skyrmions with a diameter of only a few nanometers can be stabilized in magnetic metal films even without an external magnetic field. They report on their discovery in the journal Nature Communications.

The existence of magnetic skyrmions as particle-like objects was predicted 30 years ago by , but could only be proven experimentally in 2013. Skyrmions with a diameter from micrometers to a few nanometers were discovered in different magnetic material systems. Although they can be generated on a surface of a few atoms and manipulated with , they show a high stability against external influences. This makes them for future data storage or logic devices. In order to be competitive for technological applications, however, skyrmions must not only be very small, but also stable without an applied magnetic field.


Researchers at the universities of Hamburg and Kiel have now taken an important step in this direction. On the basis of quantum mechanical numerical calculations carried out on the supercomputers of the North-German Supercomputing Alliance (HLRN), the physicists from Kiel were able to predict that individual skyrmions with a diameter of only a few nanometers would appear in an atomically thin, ferromagnetic cobalt film (see Fig. 1). "The stability of the magnetic knots in these films is due to an unusual competition between different magnetic interactions," says Sebastian Meyer, Ph.D. student in Prof. Stefan Heinze's research group at the Kiel University.




Researchers observe spontaneous occurrence of skyrmions in atomically thin cobalt films

Fig. 2: Scanning tunneling microscopy measurement of the sample surface, a magnetic skyrmion can be recognized here as a golden ring. Credit: A. Kubetzka, Universität Hamburg
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This prediction was subsequently confirmed by Hamburg researchers around Dr. Kirsten von Bergmann using high-resolution scanning tunneling microscopy. The low-temperature measurements by Marco Perini, Ph.D. student in the research group of Prof. Dr. Roland Wiesendanger, show in the prepared cobalt films without an having to be applied (see Fig. 2). "So far, individual skyrmions have almost always been generated by magnetic fields. In our metal films the skyrmions occur spontaneously," explains Kirsten von Bergmann. "For future applications in spin electronics the skyrmions must not only be stable at extremely low temperatures, as in the metal films investigated, but also at ambient temperature. In order to realize this next step towards application, the competition between different magnetic interactions found here can make a major contribution."




Explore further



Simple detection of magnetic skyrmions



More information:
Sebastian Meyer et al. Isolated zero field sub-10 nm skyrmions in ultrathin Co films, Nature Communications (2019). DOI: 10.1038/s41467-019-11831-4





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Researchers observe spontaneous occurrence of skyrmions in atomically thin cobalt films (2019, August 23)
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