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Paper detail

Spin-transfer torque-driven motion, deformation, and instabilities of magnetic skyrmions at high currents

In chiral magnets, localized topological magnetic whirls, magnetic skyrmions, can be moved by spin polarized electric currents. Upon increasing the current strength, with prospects for high-speed skyrmion motion for spintronics applications in mind, isolated skyrmions deform away from their typical circular shape. We analyze the influence of spin-transfer torques on the shape of a single skyrmion, including its stability upon adiabatically increasing the strength of the applied electric current. For rather compact skyrmions at uniaxial anisotropies well above the critical anisotropy for domain wall formation, we find for high current densities that the skyrmion assumes a non-circular shape with a tail, reminiscent of a shooting star. For larger and hence softer skyrmions close to the critical anisotropy, in turn, we observe a critical current density above which skyrmions become unstable. We show that above a second critical current density the shooting star solution can be recovered also for these skyrmions.

preprint2020arXivOpen access
Jan MasellDavi R. RodriguesBen F. McKeeverKarin Everschor-Sitte
cond-mat.mes-hallcond-mat.str-el
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Jan MasellDavi R. RodriguesBen F. McKeeverKarin Everschor-Sitte

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