Antiferromagnetic skyrmions exhibit bidirectional motion under current-induced torques above a threshold due to competing effective forces, enabling logic gates.
Nano Lett
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Micromagnetic simulations show that antiferromagnetic coupling in synthetic antiferromagnetic skyrmions produces modified gyrotropic modes in squares, linear translational modes in rectangles, and collective translational and out-of-phase breathing modes in chains.
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Bidirectional motion of antiferromagnetic skyrmions driven by competing spin torques
Antiferromagnetic skyrmions exhibit bidirectional motion under current-induced torques above a threshold due to competing effective forces, enabling logic gates.
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Eigenmodes of synthetic antiferromagnetic skyrmions
Micromagnetic simulations show that antiferromagnetic coupling in synthetic antiferromagnetic skyrmions produces modified gyrotropic modes in squares, linear translational modes in rectangles, and collective translational and out-of-phase breathing modes in chains.