Zno/La0.7Sr0.3MnO3异质结构的磁性和电学性能

DAE SOLID STATE PHYSICS SYMPOSIUM 2018 Pub Date : 2019-07-12 DOI:10.1063/1.5113172

B. Das, S. N. Achary, P. Padhan

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引用次数: 0

摘要

采用射频磁控溅射技术，在(001)取向硅(Si)衬底上生长出不同ZnO厚度的ZnO/La0.7Sr0.3MnO3 (LSMO)异质结构。x射线衍射证实ZnO是外延生长在LSMO/Si上。Si上LSMO薄膜的面外晶格参数为3.863 A，应变为0.6%，而ZnO薄膜的面外晶格参数为0.07%。异质结构在300 K左右表现出顺磁性向铁磁性的转变，相对于块体LSMO低。当温度从300 K降低到10 K时，异质结构中的电输运是非线性的，表现出从绝缘体到金属的转变行为。利用射频磁控溅射技术，在(001)取向硅(Si)衬底上生长出不同ZnO厚度的ZnO/La0.7Sr0.3MnO3 (LSMO)异质结构。x射线衍射证实ZnO是外延生长在LSMO/Si上。Si上LSMO薄膜的面外晶格参数为3.863 A，应变为0.6%，而ZnO薄膜的面外晶格参数为0.07%。异质结构在300 K左右表现出顺磁性向铁磁性的转变，相对于块体LSMO低。当温度从300 K降低到10 K时，异质结构中的电输运是非线性的，表现出从绝缘体到金属的转变行为。该异质结构的研究可为今后使用氧化物材料的硅基电子器件的发展提供有用的信息。

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Magnetic and electrical properties of Zno/La0.7Sr0.3MnO3 heterostructures

ZnO/La0.7Sr0.3MnO3 (LSMO) heterostructures with different ZnO thickness were grown on (001) oriented silicon (Si) substrates by using RF-magnetron sputtering. The x-ray diffraction confirmed that the ZnO was grown epitaxially on LSMO/Si. The out-of-plane lattice parameter (3.863 A) of LSMO film on Si experience 0.6 % strain, while that of ZnO experience 0.07 %. The heterostructure shows paramagnetic to ferromagnetic transition around 300 K, relatively lower that the bulk LSMO. The electrical transport in the heterostructure is non-linear and exhibits a transition from insulator like-to-metal like behavior on decreasing temperature from 300 K to 10 K. The study of this heterostructure may provide useful information for the future development of Si based electronic devices using oxide materials.ZnO/La0.7Sr0.3MnO3 (LSMO) heterostructures with different ZnO thickness were grown on (001) oriented silicon (Si) substrates by using RF-magnetron sputtering. The x-ray diffraction confirmed that the ZnO was grown epitaxially on LSMO/Si. The out-of-plane lattice parameter (3.863 A) of LSMO film on Si experience 0.6 % strain, while that of ZnO experience 0.07 %. The heterostructure shows paramagnetic to ferromagnetic transition around 300 K, relatively lower that the bulk LSMO. The electrical transport in the heterostructure is non-linear and exhibits a transition from insulator like-to-metal like behavior on decreasing temperature from 300 K to 10 K. The study of this heterostructure may provide useful information for the future development of Si based electronic devices using oxide materials.

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DAE SOLID STATE PHYSICS SYMPOSIUM 2018

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