Content focus:
- Magnetic properties of solids - atomic origin of magnetism, temperature dependence
magnetic properties of materials, magnetically soft materials based on iron,
amorphous alloys, hard magnetic materials, ferrites, magnetic oxides,
magnetic semiconductors.
- Magnetism of nanostructures - magnetic anisotropy, exchange interaction,
energy magnetic dipole anisotropy, magneto-crystalline
and magnetoelastic anisotropy, Stoner-Wohlfarthův model for magnetic
particles, hysteresis loop, domain structure and magnetic domain
in nanosystems, exchange energy, periodic exchange coupling,
superparamagnetism, micromagnetic modeling, dynamics of magnetization reversal, the Landau-Lifshitz-Gilbert equation.
- Experimental methods for studying of magnetic nanostructures - generation of magnetic field, magnetic spectroscopies, vector magnetometry, magnetic microscopy
- Magnetic properties of solids - atomic origin of magnetism, temperature dependence
magnetic properties of materials, magnetically soft materials based on iron,
amorphous alloys, hard magnetic materials, ferrites, magnetic oxides,
magnetic semiconductors.
- Magnetism of nanostructures - magnetic anisotropy, exchange interaction,
energy magnetic dipole anisotropy, magneto-crystalline
and magnetoelastic anisotropy, Stoner-Wohlfarthův model for magnetic
particles, hysteresis loop, domain structure and magnetic domain
in nanosystems, exchange energy, periodic exchange coupling,
superparamagnetism, micromagnetic modeling, dynamics of magnetization reversal, the Landau-Lifshitz-Gilbert equation.
- Experimental methods for studying of magnetic nanostructures - generation of magnetic field, magnetic spectroscopies, vector magnetometry, magnetic microscopy