Ernst Ruska-Centre and Institut für Festkörperforschung, Forschungszentrum Jülich, 52425 Jülich, Germany.
ACS Appl Mater Interfaces. 2011 May;3(5):1545-51. doi: 10.1021/am200115j. Epub 2011 Apr 12.
Strained SrTiO₃ layers have become of interest, since the paraelectric-to-ferroelectric transition temperature can be increased to room temperature. A linear relationship between strain and energy splitting of the fundamental transitions in the fine structure of Ti L(₂,₃) and O K edges is observed, that can be exploited to measure strain from electronic transitions, complementary to measuring local strain directly via high-resolution transmission electron microscopy (HRTEM) images. In particular, for both methods, the geometrical phase analysis performed on high-resolution images and the measurement of the energy splitting by energy loss spectroscopy, tensile strain of SrTiO₃ layers was measured when grown on DyScO₃ and GdScO₃ substrates. The effect of strain on the electron loss near edge structure (ELNES) of the Ti L(₂,₃) edge in comparison to unstrained samples is analyzed. Ab initio calculations of the Ti L(₂,₃) and O K edge show a linear variation of the crystal field splitting with strain. Calculated and experimental values of the crystal field splitting show a very good agreement.
应变 SrTiO₃ 层已经引起了人们的兴趣,因为顺电-铁电相变温度可以提高到室温。在 Ti L(₂,₃) 和 O K 边缘精细结构的基本跃迁的能量分裂与应变之间观察到线性关系,这可以用于通过电子跃迁测量应变,与通过高分辨率透射电子显微镜 (HRTEM) 图像直接测量局部应变互补。特别是对于这两种方法,在高分辨率图像上进行的几何相位分析和通过能量损失光谱测量能量分裂,当 SrTiO₃ 层在 DyScO₃ 和 GdScO₃ 衬底上生长时,测量了其拉伸应变。分析了应变对 Ti L(₂,₃) 边缘的电子损失近边结构 (ELNES) 与未应变样品的对比。Ti L(₂,₃) 和 O K 边缘的第一性原理计算表明,晶体场分裂随应变呈线性变化。计算和实验值的晶体场分裂显示出非常好的一致性。
