Magnetic whirls in chiral magnets, so-called skyrmions, can be manipulated by ultrasmall
current densities. Here we study both analytically and numerically the interactions of a single …

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 …

Magnetic skyrmions are candidates for a new generation of information carriers due to their
nanometric size and topologically protected stability. The study of the dynamics of such …

Magnetic skyrmions are topologically non-trivial, swirling magnetization textures that form
lattices in helimagnetic materials. These magnetic nanoparticles show promise as high …

Magnetic skyrmions are localized swirls of magnetization with a nontrivial topological
winding number. This winding increases their robustness to superparamagnetism and gives …

Skyrmions recently discovered in chiral magnets are a promising candidate for magnetic
storage devices because of their topological stability, small size (∼ 3–100 nm), and ultralow …

We study the Skyrmion dynamics in thin films under a temperature gradient. Our numerical
simulations show that both single and multiple Skyrmions in a crystal move towards the high …

When an electron moves in a smoothly varying non-collinear magnetic structure, its spin
orientation adapts constantly, thereby inducing forces that act both on the magnetic structure …

Magnetic skyrmions—vortex-like swirling spin structures with a quantized topological
number that are observed in chiral magnets—are appealing for potential applications in …

Magnetic Skyrmions can be considered as localized vortexlike spin textures which are
topologically protected in continuous systems. Because of their stability, their small size, and …