Damped ferromagnetic precession is an important mechanism underpinning the
magnetisation processes in ferromagnetic materials. In thin-film ferromagnets and …

The spin Hall effect converts charge current to pure spin currents in orthogonal directions in
materials that have significant spin–orbit coupling. The efficiency of the conversion is …

The Gilbert dam** of ferromagnetic materials is arguably the most important but least
understood phenomenological parameter that dictates real-time magnetization dynamics …

This book presents the recent development in the area of spin dynamics and magnetic
dam**. It is important to understand the basic physical phenomena that govern the spin …

Enhancement of Gilbert dam** in polycrystalline cobalt thin-film multilayers of various
thicknesses, overlayered with copper or iridium, was studied in order to understand the role …

The evolution of dam** in Co/Pt, Co/Au, and Ni 81 Fe 19/Pt bilayers was studied with
increasing nonmagnetic (NM) heavy-metal layer thicknesses in the range 0.2 nm≤ t NM≤ …

Applications based on spin currents strongly rely on the control and reduction of their
effective dam** and their transport properties. We here experimentally observe magnon …

Ultrathin two-dimensional (2D) ferromagnets with intrinsic half-metallicity are highly
prospective in designing nanoscale spintronics devices. In this work, we systematically …

Electrical control of a magnetic tunnel junction (MTJ) through spin-orbit torques (SOTs) offers
opportunities to introduce MTJs into high-performance, low energy applications. SOTs …

Two-dimensional transition metal dichalcogenides (TMDs) have immense potential for
spintronics applications. Here, we report atomic layer thickness dependence in WS 2/Co 3 …