Fast current-induced skyrmion motion in synthetic antiferromagnets.
Van Tuong PhamNaveen SisodiaIlaria Di ManiciJoseba Urrestarazu-LarrañagaKaushik BairagiJohan Pelloux-PrayerRodrigo GuedasLiliana D Buda-PrejbeanuStéphane AuffretAndrea LocatelliTevfik Onur MentesStefania PizziniPawan KumarAurore FincoVincent JacquesGilles GaudinOlivier BoullePublished in: Science (New York, N.Y.) (2024)
Magnetic skyrmions are topological magnetic textures that hold great promise as nanoscale bits of information in memory and logic devices. Although room-temperature ferromagnetic skyrmions and their current-induced manipulation have been demonstrated, their velocity has been limited to about 100 meters per second. In addition, their dynamics are perturbed by the skyrmion Hall effect, a motion transverse to the current direction caused by the skyrmion topological charge. Here, we show that skyrmions in compensated synthetic antiferromagnets can be moved by current along the current direction at velocities of up to 900 meters per second. This can be explained by the cancellation of the net topological charge leading to a vanishing skyrmion Hall effect. Our results open an important path toward the realization of logic and memory devices based on the fast manipulation of skyrmions in tracks.