Syllabus
Crystal growth by Czochralski method
X-ray diffraction, determination of lattice parameter, phase analysis
Transmission and scanning electron microscopy: Study of microstructure and phase analysis
Study of mechanicla propertie of materials by deformation experiment and acoustic emission
Thermophysical methods of study of structural changes of materials (resistometry, DSC)
Positron annihilation: study of lattice defects
Nuclear magnetic resonance: study of magnetic structure of ferrite, temperature dependence of magnetization of superlattices
Study of magnetic state of solids by SQUID magnetometer under non-ambient conditions (low temperatures, high magnetic fields, high pressures)
Superfluidity in liquid helium
Diagnostic methods of plasma polymers preparation.
Atomic force microscopy
Dynamic-mechanical spectroscopy
Characterization of nanoparticles (zeta potential in dependence on pH)
Annotation
Demonstration of experimental study of principal physical phenomena and corresponding experimental facilities described in the lecture Introduction to condensed matter physics.