Enhanced perpendicular magnetic anisotropy of ferrimagnetic Mn4N films deposited on the glass substrate

Wenchang Li; Xinxing Xu; Tenghua Gao; Takashi Harumoto; Yoshio Nakamura; Ji Shi

doi:10.1088/1361-6463/ac5e1b

Enhanced perpendicular magnetic anisotropy of ferrimagnetic Mn₄N films deposited on the glass substrate

Wenchang Li, Xinxing Xu, Tenghua Gao, Takashi Harumoto, Yoshio Nakamura, Ji Shi

Graduate School of Science and Technology

Research output: Contribution to journal › Article › peer-review

Abstract

Mn4N films have been prepared on the glass substrate by reactive magnetron sputtering, using Mn3N2 as the seed layer. Compared with Mn4N film directly grown on the glass substrate, the crystallinity and perpendicular magnetic anisotropy (PMA) of the Mn4N film with the seed layer are significantly enhanced. By varying the thickness of the Mn3N2 seed layer, the structural and magnetic properties are systematically investigated. It is shown that the seed layer thickness is pivotal in the growth of Mn4N with good crystallinity. The crystallinity of Mn4N first improves with the increase in the layer thickness of Mn3N2, and degrades after an optimal thickness; this is related to the change in the surface roughness of the Mn3N2 layers. The Mn3N2 layer not only promotes the growth of Mn4N film with c-axis orientation, but also provides additional N atoms to the growing surface to prevent Mn4N from being oxidized. This simple method can be used to prepare high-quality Mn4N films on a glass substrate, which show strong PMA and are suitable for spintronics applications.

Original language	English
Article number	275004
Journal	Journal of Physics D: Applied Physics
Volume	55
Issue number	27
DOIs	https://doi.org/10.1088/1361-6463/ac5e1b
Publication status	Published - 2022 Jul 7

Keywords

MnN film
glass substrate
perpendicular magnetic anisotropy
reactive sputtering

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Acoustics and Ultrasonics
Surfaces, Coatings and Films

Access to Document

10.1088/1361-6463/ac5e1b

Cite this

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title = "Enhanced perpendicular magnetic anisotropy of ferrimagnetic Mn4N films deposited on the glass substrate",

abstract = "Mn4N films have been prepared on the glass substrate by reactive magnetron sputtering, using Mn3N2 as the seed layer. Compared with Mn4N film directly grown on the glass substrate, the crystallinity and perpendicular magnetic anisotropy (PMA) of the Mn4N film with the seed layer are significantly enhanced. By varying the thickness of the Mn3N2 seed layer, the structural and magnetic properties are systematically investigated. It is shown that the seed layer thickness is pivotal in the growth of Mn4N with good crystallinity. The crystallinity of Mn4N first improves with the increase in the layer thickness of Mn3N2, and degrades after an optimal thickness; this is related to the change in the surface roughness of the Mn3N2 layers. The Mn3N2 layer not only promotes the growth of Mn4N film with c-axis orientation, but also provides additional N atoms to the growing surface to prevent Mn4N from being oxidized. This simple method can be used to prepare high-quality Mn4N films on a glass substrate, which show strong PMA and are suitable for spintronics applications.",

keywords = "MnN film, glass substrate, perpendicular magnetic anisotropy, reactive sputtering",

author = "Wenchang Li and Xinxing Xu and Tenghua Gao and Takashi Harumoto and Yoshio Nakamura and Ji Shi",

note = "Funding Information: J S is grateful for the partial financial support from JSPS KAKENHI Grant No. 19H00864. Part of the results of this work have been obtained using research equipment shared within the framework of the MEXT Project for promoting public utilization of advanced research infrastructure (Program for supporting construction of core facilities), Grant No. JPMXS0440200021. Publisher Copyright: {\textcopyright} 2022 IOP Publishing Ltd.",

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T1 - Enhanced perpendicular magnetic anisotropy of ferrimagnetic Mn4N films deposited on the glass substrate

AU - Li, Wenchang

AU - Xu, Xinxing

AU - Gao, Tenghua

AU - Harumoto, Takashi

AU - Nakamura, Yoshio

AU - Shi, Ji

N1 - Funding Information: J S is grateful for the partial financial support from JSPS KAKENHI Grant No. 19H00864. Part of the results of this work have been obtained using research equipment shared within the framework of the MEXT Project for promoting public utilization of advanced research infrastructure (Program for supporting construction of core facilities), Grant No. JPMXS0440200021. Publisher Copyright: © 2022 IOP Publishing Ltd.

PY - 2022/7/7

Y1 - 2022/7/7

N2 - Mn4N films have been prepared on the glass substrate by reactive magnetron sputtering, using Mn3N2 as the seed layer. Compared with Mn4N film directly grown on the glass substrate, the crystallinity and perpendicular magnetic anisotropy (PMA) of the Mn4N film with the seed layer are significantly enhanced. By varying the thickness of the Mn3N2 seed layer, the structural and magnetic properties are systematically investigated. It is shown that the seed layer thickness is pivotal in the growth of Mn4N with good crystallinity. The crystallinity of Mn4N first improves with the increase in the layer thickness of Mn3N2, and degrades after an optimal thickness; this is related to the change in the surface roughness of the Mn3N2 layers. The Mn3N2 layer not only promotes the growth of Mn4N film with c-axis orientation, but also provides additional N atoms to the growing surface to prevent Mn4N from being oxidized. This simple method can be used to prepare high-quality Mn4N films on a glass substrate, which show strong PMA and are suitable for spintronics applications.

AB - Mn4N films have been prepared on the glass substrate by reactive magnetron sputtering, using Mn3N2 as the seed layer. Compared with Mn4N film directly grown on the glass substrate, the crystallinity and perpendicular magnetic anisotropy (PMA) of the Mn4N film with the seed layer are significantly enhanced. By varying the thickness of the Mn3N2 seed layer, the structural and magnetic properties are systematically investigated. It is shown that the seed layer thickness is pivotal in the growth of Mn4N with good crystallinity. The crystallinity of Mn4N first improves with the increase in the layer thickness of Mn3N2, and degrades after an optimal thickness; this is related to the change in the surface roughness of the Mn3N2 layers. The Mn3N2 layer not only promotes the growth of Mn4N film with c-axis orientation, but also provides additional N atoms to the growing surface to prevent Mn4N from being oxidized. This simple method can be used to prepare high-quality Mn4N films on a glass substrate, which show strong PMA and are suitable for spintronics applications.

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