Kaspar T C, Heald S M, Wang C M, Bryan J D, Droubay T, Shutthanandan V, Thevuthasan S, McCready D E, Kellock A J, Gamelin D R, Chambers S A
Pacific Northwest National Laboratory, Richland, Washington 99352, USA.
Phys Rev Lett. 2005 Nov 18;95(21):217203. doi: 10.1103/PhysRevLett.95.217203. Epub 2005 Nov 14.
We reexamine the mechanism of ferromagnetism in doped TiO(2) anatase, using epitaxial Cr:TiO(2) with excellent structural quality as a model system. In contrast to highly oriented but defective Cr:TiO(2) (approximately 0.5 micro(b)/Cr), these structurally superior single crystal films exhibit negligible ferromagnetism. Similar results were obtained for Co:TiO(2). We show for the first time that charge-compensating oxygen vacancies alone, as predicted by F-center mediated exchange, are not sufficient to activate ferromagnetism. Instead, the onset of ferromagnetism correlates with the presence of structural defects.
我们使用具有优异结构质量的外延Cr:TiO₂作为模型系统,重新审视了掺杂TiO₂锐钛矿中铁磁性的机制。与高度取向但有缺陷的Cr:TiO₂(约0.5 μB/Cr)不同,这些结构更优的单晶薄膜表现出可忽略不计的铁磁性。对于Co:TiO₂也获得了类似结果。我们首次表明,如F中心介导的交换所预测的,仅电荷补偿氧空位不足以激活铁磁性。相反,铁磁性的出现与结构缺陷的存在相关。