posted on 2018-12-05, 00:00authored bySimone Finizio, Sebastian Wintz, Katharina Zeissler, Alexandr V. Sadovnikov, Sina Mayr, Sergey A. Nikitov, Christopher H. Marrows, Jörg Raabe
We report on the
time-resolved investigation of current- and field-induced
domain wall motion in the flow regime in perpendicularly magnetized
microwires exhibiting antisymmetric exchange interaction by means
of scanning transmission X-ray microscopy with a 200 ps time step.
The sub-ns time step of the dynamical images allowed us to observe
the absence of incubation times for the motion of the domain wall
within an uncertainty of 200 ps, together with indications for a negligible
inertia of the domain wall. Furthermore, we observed that, for short
current and magnetic field pulses, the magnetic domain walls do not
exhibit a tilting during their motion, providing a mechanism for the
fast, tilt-free, current-induced motion of magnetic domain walls.