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: http://magn115.phys.msu.ru/Rus/DETI2/AnnoRusPart2012.pdf
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Annotation: By the Russian side of the project all announced tasks in preparation and studies of titanium dioxide thin films with incorporated ions of cobalt, vanadium or manganese have been done during the reporting period. Some of prepared films exhibit the ferromagnetic ordering at room temperature and could be considered as candidates to diluted magnetic semiconductors (DMS). Films have been prepared by direct doping with the impurity level up to several atomic percents. The doping has been done by rf magnetron sputtering method in the argon-oxygen atmosphere from metallic and/or ceramic (composite) targets with further vacuum annealing for several systems. The films have been tested by XRD, magnetometry (VSM, SQUID) and magneto-optical (MO) spectroscopy of transversal Kerr effect methods. Furthermore, the measurements of anomalous Hall effect (AHE), positron annihilation spectroscopy (PAS), absorption spectra (XANES) and fluorescence analysis (EDX) have been also done. PAS method allows to get information about the point and open-volume defects in the samples studied; EDX analysis could discover the presence of additional magnetic phases in the samples. For some films the values of magnetic moment per impurity atom have been calculated from the macroscopic magnetometry data. The main interest of researchers was focused on TiO2:Co and TiO2:V thin films, that reveal an essential difference in their behavior: TiO2:Co films demonstrate either strong magnetization, MO response or AHE independently on presence or absence of magnetic Co clusters inside the films. Meantime, TiO2:V films show only tiny MO response or a total absence of it even for films with a recordable magnetization and the hysteresis loop. The AHE signal has not been recorded for any of TiO2:V films. It should be noted that MO spectra for TiO2:Co are significantly dissimilar for films with anatase or rutile matrix and differ strongly from MO spectra of nanocomposites films with cobalt clusters. Researches involved in the project suggested the model for description of films behavior (and possible interactions inside them) that takes into account the magnetic polarization of presented oxygen vacancies (as other authors worked with DMS based on other systems). Jointly with the German partner the summer school «Frontiers in TiO2 based diluted magnetic semiconductors» has been held (Dresden, HZDR, September 11-15th, 2012) and two Internet-resources with an actual information about the project progress have been created (both in Russian and English). Initial goals for the Russian partner for the 2012: Initial goals of the Russian partner for the first year of the project (2012) have been formulated in the next points: -1-