Micro-MOKE with optical interference in the study of 2D Cr2Ge2Te6 nanoflake based magnetic heterostructures

Micro-MOKE with optical interference in the study of 2D Cr2Ge2Te6 nanoflake based magnetic heterostructures

Due to its high sensitivity and sub-micrometer spatial resolution, the microscopic magneto-optical Kerr effect (micro-MOKE) technique has been widely utilized in the study of two-dimensional (2D) magnetic materials and heterostructures. Here, by taking 2D Cr2Ge2Te6 nanoflakes on a silicon wafer subs...

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Main Authors: Zongwei Ma, Wang Zhu, Gaoting Lin, Yinan Liu, Feng Jin, Yang Yang, Tong Wu, Xuan Luo, Yuping Sun, Jianhao Chen, Yan Sun, Chun Zhou, Zhigao Sheng
Format: Article
Language:English
Published: AIP Publishing LLC 2019-12-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.5126944
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spelling doaj-f13cc3fbfb274099a79afddb6666090f2020-11-25T02:15:56ZengAIP Publishing LLCAIP Advances2158-32262019-12-01912125116125116-510.1063/1.5126944Micro-MOKE with optical interference in the study of 2D Cr2Ge2Te6 nanoflake based magnetic heterostructuresZongwei Ma0Wang Zhu1Gaoting Lin2Yinan Liu3Feng Jin4Yang Yang5Tong Wu6Xuan Luo7Yuping Sun8Jianhao Chen9Yan Sun10Chun Zhou11Zhigao Sheng12Anhui Key Laboratory of Condensed Matter Physics at Extreme Conditions, High Magnetic Field Laboratory, Chinese Academy of Sciences, Hefei 230031, ChinaAnhui Key Laboratory of Condensed Matter Physics at Extreme Conditions, High Magnetic Field Laboratory, Chinese Academy of Sciences, Hefei 230031, ChinaInstitute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, ChinaInternational Center for Quantum Materials, Peking University, Beijing 100871, ChinaAnhui Key Laboratory of Condensed Matter Physics at Extreme Conditions, High Magnetic Field Laboratory, Chinese Academy of Sciences, Hefei 230031, ChinaAnhui Key Laboratory of Condensed Matter Physics at Extreme Conditions, High Magnetic Field Laboratory, Chinese Academy of Sciences, Hefei 230031, ChinaInstitutes of Physical Science and Information Technology, Anhui University, Hefei 230039, ChinaInstitute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, ChinaAnhui Key Laboratory of Condensed Matter Physics at Extreme Conditions, High Magnetic Field Laboratory, Chinese Academy of Sciences, Hefei 230031, ChinaInternational Center for Quantum Materials, Peking University, Beijing 100871, ChinaInstitutes of Physical Science and Information Technology, Anhui University, Hefei 230039, ChinaAnhui Key Laboratory of Condensed Matter Physics at Extreme Conditions, High Magnetic Field Laboratory, Chinese Academy of Sciences, Hefei 230031, ChinaAnhui Key Laboratory of Condensed Matter Physics at Extreme Conditions, High Magnetic Field Laboratory, Chinese Academy of Sciences, Hefei 230031, ChinaDue to its high sensitivity and sub-micrometer spatial resolution, the microscopic magneto-optical Kerr effect (micro-MOKE) technique has been widely utilized in the study of two-dimensional (2D) magnetic materials and heterostructures. Here, by taking 2D Cr2Ge2Te6 nanoflakes on a silicon wafer substrate as a model system, we present the effect of optical multilayer interference induced “optical artifacts” on the effective micro-MOKE measurements in such a system. It is found that not only the magnitude but also the sign of the micro-MOKE signal could be modulated by the “optical artifacts” with the variation of either the Cr2Ge2Te6 nanoflakes’ thickness or probe light wavelength. The detailed analysis based on the multilayer interference model reveals that there are two kinds of MOKE signals, sign reversal and magnitude modulation behavior, and the interference effect on the MOKE response can be easily predicted from unpolarized optical images. Our findings provide instructional principles on the promotion of micro-MOKE characterization as well as the optical studies in van der Waals magnets.http://dx.doi.org/10.1063/1.5126944
collection DOAJ
language English
format Article
sources DOAJ
author Zongwei Ma
Wang Zhu
Gaoting Lin
Yinan Liu
Feng Jin
Yang Yang
Tong Wu
Xuan Luo
Yuping Sun
Jianhao Chen
Yan Sun
Chun Zhou
Zhigao Sheng
spellingShingle Zongwei Ma
Wang Zhu
Gaoting Lin
Yinan Liu
Feng Jin
Yang Yang
Tong Wu
Xuan Luo
Yuping Sun
Jianhao Chen
Yan Sun
Chun Zhou
Zhigao Sheng
Micro-MOKE with optical interference in the study of 2D Cr2Ge2Te6 nanoflake based magnetic heterostructures
AIP Advances
author_facet Zongwei Ma
Wang Zhu
Gaoting Lin
Yinan Liu
Feng Jin
Yang Yang
Tong Wu
Xuan Luo
Yuping Sun
Jianhao Chen
Yan Sun
Chun Zhou
Zhigao Sheng
author_sort Zongwei Ma
title Micro-MOKE with optical interference in the study of 2D Cr2Ge2Te6 nanoflake based magnetic heterostructures
title_short Micro-MOKE with optical interference in the study of 2D Cr2Ge2Te6 nanoflake based magnetic heterostructures
title_full Micro-MOKE with optical interference in the study of 2D Cr2Ge2Te6 nanoflake based magnetic heterostructures
title_fullStr Micro-MOKE with optical interference in the study of 2D Cr2Ge2Te6 nanoflake based magnetic heterostructures
title_full_unstemmed Micro-MOKE with optical interference in the study of 2D Cr2Ge2Te6 nanoflake based magnetic heterostructures
title_sort micro-moke with optical interference in the study of 2d cr2ge2te6 nanoflake based magnetic heterostructures
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2019-12-01
description Due to its high sensitivity and sub-micrometer spatial resolution, the microscopic magneto-optical Kerr effect (micro-MOKE) technique has been widely utilized in the study of two-dimensional (2D) magnetic materials and heterostructures. Here, by taking 2D Cr2Ge2Te6 nanoflakes on a silicon wafer substrate as a model system, we present the effect of optical multilayer interference induced “optical artifacts” on the effective micro-MOKE measurements in such a system. It is found that not only the magnitude but also the sign of the micro-MOKE signal could be modulated by the “optical artifacts” with the variation of either the Cr2Ge2Te6 nanoflakes’ thickness or probe light wavelength. The detailed analysis based on the multilayer interference model reveals that there are two kinds of MOKE signals, sign reversal and magnitude modulation behavior, and the interference effect on the MOKE response can be easily predicted from unpolarized optical images. Our findings provide instructional principles on the promotion of micro-MOKE characterization as well as the optical studies in van der Waals magnets.
url http://dx.doi.org/10.1063/1.5126944
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