Voltage induced reversible and irreversible change of magnetic coercivity in Co/ZnO heterostructure

Chuan Che Hsu; Po Chun Chang; Venkata Ramana Mudinepalli; Tsung Chun Hsieh; Fang Yuh Lo; Wen Chin Lin

doi:10.1063/1.4942852

Voltage induced reversible and irreversible change of magnetic coercivity in Co/ZnO heterostructure

Chuan Che Hsu, Po Chun Chang, Venkata Ramana Mudinepalli, Tsung Chun Hsieh, Fang Yuh Lo, Wen Chin Lin

物理學系

研究成果: 雜誌貢獻 › 期刊論文 › 同行評審

5 引文斯高帕斯（Scopus）

摘要

In this study, the application of bias voltage to 4-8 nm Co/275 nm ZnO heterostructures changed the magnetic behavior reversibly or irreversibly, depending on the different voltage-induced mechanisms. The magnetic coercivity (H_c) monotonically decreased 20% when the small voltages of 0-8 V were applied. The H_c reduction was symmetric with the voltage polarity, and the reversibility was demonstrated by cyclically switching the bias voltage between 0 and 7 V. While a large voltage up to 40 V was applied to the Co/ZnO junction, the current heating effect became considerable and the Co-oxide was formed, as confirmed by depth-profiling X-ray photoemission spectroscopy analysis. The presence of Co-oxide in the Co films induced the irreversible reduction of the Kerr signal and H_c at room temperature. The considerable H_c enhancement at 130 K also indicates the exchange bias coupling effect from the antiferromagnetic Co-oxide.

原文	英語
文章編號	093905
期刊	Journal of Applied Physics
卷	119
發行號	9
DOIs	https://doi.org/10.1063/1.4942852
出版狀態	已發佈 - 2016 3月 7

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物理與天文學 (全部)

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title = "Voltage induced reversible and irreversible change of magnetic coercivity in Co/ZnO heterostructure",

abstract = "In this study, the application of bias voltage to 4-8 nm Co/275 nm ZnO heterostructures changed the magnetic behavior reversibly or irreversibly, depending on the different voltage-induced mechanisms. The magnetic coercivity (Hc) monotonically decreased 20% when the small voltages of 0-8 V were applied. The Hc reduction was symmetric with the voltage polarity, and the reversibility was demonstrated by cyclically switching the bias voltage between 0 and 7 V. While a large voltage up to 40 V was applied to the Co/ZnO junction, the current heating effect became considerable and the Co-oxide was formed, as confirmed by depth-profiling X-ray photoemission spectroscopy analysis. The presence of Co-oxide in the Co films induced the irreversible reduction of the Kerr signal and Hc at room temperature. The considerable Hc enhancement at 130 K also indicates the exchange bias coupling effect from the antiferromagnetic Co-oxide.",

author = "Hsu, {Chuan Che} and Chang, {Po Chun} and Mudinepalli, {Venkata Ramana} and Hsieh, {Tsung Chun} and Lo, {Fang Yuh} and Lin, {Wen Chin}",

note = "Funding Information: This study was financially sponsored by Ministry of Science and Technology, Taiwan under Grant Nos. NSC 102-2112-M-003-003-MY3, NSC 102-2923-M-003-002-MY3 and NSC 100-2112-M-003-007-MY3. Publisher Copyright: {\textcopyright} 2016 AIP Publishing LLC.",

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AU - Hsu, Chuan Che

AU - Chang, Po Chun

AU - Mudinepalli, Venkata Ramana

AU - Hsieh, Tsung Chun

AU - Lo, Fang Yuh

AU - Lin, Wen Chin

N1 - Funding Information: This study was financially sponsored by Ministry of Science and Technology, Taiwan under Grant Nos. NSC 102-2112-M-003-003-MY3, NSC 102-2923-M-003-002-MY3 and NSC 100-2112-M-003-007-MY3. Publisher Copyright: © 2016 AIP Publishing LLC.

PY - 2016/3/7

Y1 - 2016/3/7

N2 - In this study, the application of bias voltage to 4-8 nm Co/275 nm ZnO heterostructures changed the magnetic behavior reversibly or irreversibly, depending on the different voltage-induced mechanisms. The magnetic coercivity (Hc) monotonically decreased 20% when the small voltages of 0-8 V were applied. The Hc reduction was symmetric with the voltage polarity, and the reversibility was demonstrated by cyclically switching the bias voltage between 0 and 7 V. While a large voltage up to 40 V was applied to the Co/ZnO junction, the current heating effect became considerable and the Co-oxide was formed, as confirmed by depth-profiling X-ray photoemission spectroscopy analysis. The presence of Co-oxide in the Co films induced the irreversible reduction of the Kerr signal and Hc at room temperature. The considerable Hc enhancement at 130 K also indicates the exchange bias coupling effect from the antiferromagnetic Co-oxide.

AB - In this study, the application of bias voltage to 4-8 nm Co/275 nm ZnO heterostructures changed the magnetic behavior reversibly or irreversibly, depending on the different voltage-induced mechanisms. The magnetic coercivity (Hc) monotonically decreased 20% when the small voltages of 0-8 V were applied. The Hc reduction was symmetric with the voltage polarity, and the reversibility was demonstrated by cyclically switching the bias voltage between 0 and 7 V. While a large voltage up to 40 V was applied to the Co/ZnO junction, the current heating effect became considerable and the Co-oxide was formed, as confirmed by depth-profiling X-ray photoemission spectroscopy analysis. The presence of Co-oxide in the Co films induced the irreversible reduction of the Kerr signal and Hc at room temperature. The considerable Hc enhancement at 130 K also indicates the exchange bias coupling effect from the antiferromagnetic Co-oxide.

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Voltage induced reversible and irreversible change of magnetic coercivity in Co/ZnO heterostructure

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