Oscillating topological charge for skyrmion-based spin-transfer torque nano-oscillatorSršan, Vinko (Avtor) Komelj, Matej (Avtor) Šturm, Sašo (Avtor) magnetic skyrmionsskyrmion stringsmicromagneticsspin torque nano-oscillatorMagnetic skyrmions are considered as promising candidates for next generation information carriers. In cubic chiral magnets with bulk Dzyaloshinskii–Moriya interaction, skyrmions trivially extend into the third dimension forming so-called skyrmion string. The third dimension of skyrmion strings introduces an additional degree of freedom that can be utilized in skyrmion-based applications. An example of such application is spin-torque oscillator based on skyrmion breathing, gyrotropic motion and skyrmion deformation mechanisms. Expanding these mechanisms, we propose design of spin-torque oscillator based on topological charge oscillation in confined geometry where skyrmion string breathing, gyrotropic motion and skyrmion-edge interactions are coupled. Micromagnetic calculations were employed to demonstrate topological charge oscillation as a function of model geometries. It is shown that only a small subset of material geometries is suitable to obtain topological charge oscillations, indicating that precise engineering of geometry would be required to realize such a device. Findings presented in this work contribute to a better understanding of a skyrmion string dynamical phenomena, which offer additional route in designing spin-torque oscillators.Elsevier20262026-05-28 12:22:07Neznano29576UDK: 537ISSN pri članku: 1873-4766DOI: 10.1016/j.jmmm.2026.174171COBISS_ID: 279666435Nizozemskasl© 2026 The Author(s).