HYPERFINE INTERACTIONS IN (BiFeO3)0.9-(BaTiO3)0.1 CERAMICS PREPARED BY MECHANICAL ACTIVATION
Bożena Malesa
bozena_malesa@wp.plMedical university of Lublin (Poland)
Mariusz Mazurek
Lublin University of Technology, Institute of Electronics and Information Technology (Poland)
Abstract
In this work the results of structural and magnetic investigations for (BiFeO3)0.9-(BaTiO3)0.1 ceramics prepared by mechanical activation are presented. The structural analysis and hyperfine interactions investigations were performed by X-ray diffraction and Mössbauer spectroscopy.
Keywords:
multiferroic materials, mechanical activation, hyperfine interactions, Mössbauer spectroscopyReferences
Blaauw C., van der Woude F.: Magnetic and structural properties of BiFeO3. Journal Physics C: Solid State Physics 6/1973, s. 1422-1431.
Google Scholar
Cornell R.M., Schwertmann U.: The iron oxides. Structure, properties, reactions, occurrence and uses. VCH, Weinheim-New York-Basel-Cambridge-Tokyo 1996.
Google Scholar
Hesse J., Rübartsch A.: Model independent evaluation of overlapped Mössbauer spectra, Journal of Physics E: Scientific Instruments 7/1974, s. 526-532.
Google Scholar
Kowal K., Jartych E., Guzdek P., Stoch P., Lisińska-Czekaj A., Czekaj D.: X-ray diffraction, Mössbauer spectroscopy, and magnetoelectric effect studiem of (BiFeO3)x-(BaTiO3)1-x solid solutions. Nukleonika 1/2013, s. 57-61.
Google Scholar
MacKenzie K.J.D., Dougherty T., Barrell J.: The electronic properties of complex oxides of bismuth with the mullite structure. Journal of the European Ceramic Society 28/2008, s. 499-504.
Google Scholar
Mazurek M., Jartych E., Oleszak D.: Structure and hyperfine ineractions of multiferroic Bim+1Ti3Fem-3O3m+3 ceramics prepared by mechanical activation. Nukleonika 1/2013, s. 143-147.
Google Scholar
Palewicz A., Szumiata T., Przeniosło R., Sosnowska I., Margiolaki I.: Search for new modulations in the BiFeO3 structure: SR diffraction and Mössbauer studies. Solid State Communications 140/2006, s. 359-363.
Google Scholar
Park T.J., Papaefthymiou G.D., Viescas A.J., Lee Y., Zhou H., Wong S.S.: Composition-dependent magnetic properties of BiFeO3-BaTiO3 solid solution nanostructures Physical Review B 82/2010, s. 024431/1-10.
Google Scholar
Sosnowska I., Peterlin-Neumaier T., Steichele E.: Spiral magnetic ordering in bismuth ferrite. Journal Physics C: Solid State Physics15/1982, s. 4835-4846.
Google Scholar
Surowiak Z.: Elektroceramika ferroelektryczna, Wydawnictwo Uniwersytetu Śląskiego, Katowice 2004.
Google Scholar
Surowiak Z., Bochenek D.: Ferroikowe materiały inteligentne. Elektronika 6/2007, s. 50-60.
Google Scholar
Thosar B.V., Srivastava J.K., Iyengar P.K., Bhargava S.C: Advances in Mössbauer Spectroscopy: Applications to Physics, Chemistry and Biology. Elsevier Scientific Publishing Company, Amsterdam-Oxford-New York 1983.
Google Scholar
Xu Y.: Ferroelectric materials and their application. North Holland, Amsterdam 1991.
Google Scholar
Yin Y-W., Raju M., Hu W-J., et al.: Multiferroic tunnel junctions. Frontiers of Physics 7/2012, s. 380-385.
Google Scholar
Authors
Mariusz MazurekLublin University of Technology, Institute of Electronics and Information Technology Poland
Statistics
Abstract views: 136PDF downloads: 69
License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
