Scientists have found a way to Manipulate Skyrmions using Mechanical energy.

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Conceptual representations of magnetic phases in MnSi and the experimental set-up.

Conceptual representations of magnetic phases in MnSi and the experimental set-up.

RIKEN Center for Emergent Matter Science may be about to wind back time. Skyrmions have been widely touted as providing the basis for new high-density memory devices because of their small size and relative stability. However, it has proven difficult to create, delete, and move them, and skyrmion-based devices are not yet competitive with other high-tech devices based on spin.

The group set out to work using a specially designed stress probe that could apply mechanical stress to the surface of manganese-silicide, a “chiral magnetic” that is known to host skyrmions, cooled to very low temperature. They found, to their surprise, that the force to create and destroy skyrmions was quite low, <10 nanonewtons/ skyrmion, comparable to the pressure exerted by the tip of a conventional pencil when we write in a notebook. A force applied perpendicular to the magnetic field led to the creation of skyrmions, while one parallel to the field turned the skyrmions off, making it possible to turn them on and off mechanically.

Uniaxial stress-driven topological phase transition in MnSi.

Uniaxial stress-driven topological phase transition in MnSi.

“This means,” says Yoshihiro Iwasa, leader of the Emergent Device Research Team, “that we may be able to fabricate devices in which skyrmions are created and deleted by a small mechanical force. This could be an inexpensive and low-energy-consuming way to create new low-cost memory devices and open the road to skymionics.”

One drawback of the current work is that it does require cooling the magnet to very low temperatures for the system to work. According to Nii, they plan to continue experiments with a variety of materials to try to identify ones that can host skyrmions that can be manipulated mechanically but at higher temperatures. http://www.nature.com/ncomms/2015/151013/ncomms9539/full/ncomms9539.html  http://www.riken.jp/en/pr/press/2015/20151013_2/