Major research interests
- Excitation of ferromagnetic resonance in ultrathin ferromagnetic films by electric field control of interfacial perpendicular magnetic anisotropy and control of corresponding damping constant by electric field
- Excitation, manipulation and directional channeling of spin waves by electric field-controlled magnetic anisotropy to develop all electric field controlled low-power magnonic devices
- Amplification and manipulation of spin waves by Rashba-Edelstein effect and surface acoustic waves
- Time-resolved magneto-optical microscopy to study quasistatic to ultrafast magnetization dynamics such as magnetization reversal, damping, ferromagnetic resonance, ultrafast demagnetization and remagnetization in various magnetic nanostructures
- Time- and frequency-domain study of precessional magnetization dynamics in various magnetic nanostructures such as magnetic multilayers, dot arrays, nanowires and nanoparticles
- Magnonic crystals: study and control of magnonic band structures in periodic arrays of magnetic nanoelements
- Electrical excitation, manipulation, detection of magnetic Skyrmions in ultrathin films and study their dynamic modes
- Micromagnetic simulations for studying various magnetization processes in various magnetic nanostructures