Staff
- Prof.dr hab. A.Kołodziejczyk
- Dr.hab. Z.Tarnawski
- Dr.hab. A.Kozłowski
- Dr. J.Chmist
- Dr. W.M.Woch
- Dr. W.Tokarz
- M.Sc. R.Zalecki
PhD Students
- MSc. Karolina Drogowska
- MSc. Tomasz Kołodziej
- MSc. Marcin Kowalik
- MSc. Grzegorz Król
- MSc. Wojciech Tabiś
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Research Subjects
1. Superconductivity and High- Temperature Superconductivity
- Coexistance of magnetism and superconductivity: Y9Co7
- Magnetoresistance, magnetisation, susceptibility, specific heat, microwave absorption of HTS: polycrystalline Y-Ba-Cu-O , Bi-Sr-Ca-Cu-O, Tl-Sr-Ba-Ca-Cu-O and Hg-Ba-Cu-O, single crystals and thin films: BiSCCO 2212, TlBaCuO 1223.
- Critical current densities and their theoretical analysis
- Analysis of experimental data within the Ginzburg- Landau- Abrikosov- Gorkov (GLAG) theory
- Electronic and band structure from photoemission spectroscopy XPS/UPS/ARUPS
- X-ray Absorption Near Edge Structure (XANES) using synchrotron radiation
- Heavy fermion superconductivity UPt3
2. Physical properties of magnetite Fe3(1-x)O4 and substituted magnetite with Ti, Zn and Al
- Magnetisation and susceptibility
- Electric transport and thermoelectric power
- Specific heat and thermodynamic properties
- Structure, X-ray and neutron diffraction
- Sound velocity and elastic properties
- Electronic and band structure from photoemission spectroscopy XPS/UPS/ARUPS
3. Physical properties of (La,RE)1-x(Sr,Ca)x(Mn,Me)O3 manganites, where RE = rare earth, Me= transition metal
- Magnetisation and susceptibility
- Resistivity and magnetoresistance, colossal magnetoresistivity phenomena
- Electron magnetic resonance and microwave absorption
- Specific heat and thermodynamic properties
- Electronic and band structure from photoemission spectroscopy XPS/UPS/ARUPS
Equipment
- Vibrating sample magnetometer
- Specific heat calorimeter
- AC and DC susceptibility
- Electron Magnetic Resonance (EPR/FMR)
- Angular- Resolved Photoemission Spectrometer XPS/UPS/ARUPS
- AC and DC resistivity
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