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DEPARTMENT OF CONDENSED MATTER
PHYSICS
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Magnetic Systems Physics
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Investigations
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Research methods
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- Nuclear magnetic resonance (NMR);
- Electron paramagnetic resonance (EPR);
- Magnetoacoustic resonance;
- Magnetic susceptibility measurements.
On their basis the original non-standard methods were developed by us in the Andronikashvili
Institute of Physics.
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Investigations:
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- New NMR dynamical and relaxation effects in magnetic systems.
- Domain-acoustic echo formation mechanism study in magnetostrictive materials (europium
garnet, iron borate, etc.).
- NMR peculiarities related with dimensions – transition element containing cobalt nano- and
mesosystems and their alloys.
- Multiple- and two-pulse stimulated echo responses properties. Magnetic video-pulse
application influence on echo in magnetic and superconductive materials.
- Domain-acoustic echo and magnetoacoustic resonance in new types of magnetostrictive and
magnetoelectric materials (piezo–magnetic-piezo; piezo-superconductor-piezo, etc.).
- Cobalt nanopowders and nanocomposites including ones fabricated on polymer basis.
Magnetic nanocluster influence on the EPR properties of TiO2 nanopowders.
- Study of superconductive and biology systems by the EPR method.
- Shock-wave compacting (SWC) fabrication of Cu - W, Ti – Al and Ti – Al – Co composite
materials using ammonite and hexogen explosives and study of their phase composition, density,
grain sizes, HV microdensity and composite plastic flow boundary.
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