Quantitative atomic order characterization of a Mn2FeAl Heusler epitaxial thin film

Samer Kurdi; Yuya Sakuraba; Keisuke Masuda; Hiroo Tajiri; Bhaskaran Nair; Guillaume F. Nataf; Mary E. Vickers; Günter Reiss; Markus Meinert; Sarnjeet S. Dhesi; Massimo Ghidini; Zoe H. Barber

doi:10.1088/1361-6463/ac4e32

Quantitative atomic order characterization of a Mn₂FeAl Heusler epitaxial thin film

Samer Kurdi^*, Yuya Sakuraba^*, Keisuke Masuda, Hiroo Tajiri, Bhaskaran Nair, Guillaume F. Nataf, Mary E. Vickers, Günter Reiss, Markus Meinert, Sarnjeet S. Dhesi, Massimo Ghidini, Zoe H. Barber

^*Corresponding author for this work

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

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Abstract

In this work, we investigate the effect of anti-site disorder on the half-metallic properties of a Mn2FeAl Heusler alloy thin film. The film was grown on TiN-buffered MgO 001 substrates via magnetron sputtering. A detailed structural characterization using x-ray diffraction (XRD) and anomalous XRD showed that the film crystallizes in the partially disordered L21 B structure with 33% disorder between the Mn(B) and Al(D) sites. We measure a positive anisotropic magnetoresistance in the film, which is an indication of non-half metallic behaviour. Our x-ray magnetic circular dichroism sum rules analysis shows that Mn carries the magnetic moment in the film, with a positive Fe moment. Experimentally determined moments correspond most closely with those found by density functional calculated for the L21 B structure with Mn(B) and Al(D) site disorder, matching the experimental structural analysis. We thus attribute the deviation from half-metallic behaviour to the formation of the L21 B structure. To realize a half-metallic Mn2FeAl film it is important that the inverse Heusler XA structure is stabilized with minimal anti-site atomic disorder.

Original language	English
Article number	185305
Journal	Journal of Physics D: Applied Physics
Volume	55
Issue number	18
Early online date	10 Feb 2022
DOIs	https://doi.org/10.1088/1361-6463/ac4e32
Publication status	Published - 5 May 2022

Keywords

Heusler alloy
spin polarization
spintronics
thin films
x-ray absorption spectroscopy
x-ray diffraction
x-ray magnetic circular dichroism

ASJC Scopus subject areas

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

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title = "Quantitative atomic order characterization of a Mn2FeAl Heusler epitaxial thin film",

abstract = "In this work, we investigate the effect of anti-site disorder on the half-metallic properties of a Mn2FeAl Heusler alloy thin film. The film was grown on TiN-buffered MgO 001 substrates via magnetron sputtering. A detailed structural characterization using x-ray diffraction (XRD) and anomalous XRD showed that the film crystallizes in the partially disordered L21 B structure with 33\% disorder between the Mn(B) and Al(D) sites. We measure a positive anisotropic magnetoresistance in the film, which is an indication of non-half metallic behaviour. Our x-ray magnetic circular dichroism sum rules analysis shows that Mn carries the magnetic moment in the film, with a positive Fe moment. Experimentally determined moments correspond most closely with those found by density functional calculated for the L21 B structure with Mn(B) and Al(D) site disorder, matching the experimental structural analysis. We thus attribute the deviation from half-metallic behaviour to the formation of the L21 B structure. To realize a half-metallic Mn2FeAl film it is important that the inverse Heusler XA structure is stabilized with minimal anti-site atomic disorder.",

keywords = "Heusler alloy, spin polarization, spintronics, thin films, x-ray absorption spectroscopy, x-ray diffraction, x-ray magnetic circular dichroism",

author = "Samer Kurdi and Yuya Sakuraba and Keisuke Masuda and Hiroo Tajiri and Bhaskaran Nair and Nataf, \{Guillaume F.\} and Vickers, \{Mary E.\} and G{\"u}nter Reiss and Markus Meinert and Dhesi, \{Sarnjeet S.\} and Massimo Ghidini and Barber, \{Zoe H.\}",

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AU - Kurdi, Samer

AU - Sakuraba, Yuya

AU - Masuda, Keisuke

AU - Tajiri, Hiroo

AU - Nair, Bhaskaran

AU - Nataf, Guillaume F.

AU - Vickers, Mary E.

AU - Reiss, Günter

AU - Meinert, Markus

AU - Dhesi, Sarnjeet S.

AU - Ghidini, Massimo

AU - Barber, Zoe H.

PY - 2022/5/5

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N2 - In this work, we investigate the effect of anti-site disorder on the half-metallic properties of a Mn2FeAl Heusler alloy thin film. The film was grown on TiN-buffered MgO 001 substrates via magnetron sputtering. A detailed structural characterization using x-ray diffraction (XRD) and anomalous XRD showed that the film crystallizes in the partially disordered L21 B structure with 33% disorder between the Mn(B) and Al(D) sites. We measure a positive anisotropic magnetoresistance in the film, which is an indication of non-half metallic behaviour. Our x-ray magnetic circular dichroism sum rules analysis shows that Mn carries the magnetic moment in the film, with a positive Fe moment. Experimentally determined moments correspond most closely with those found by density functional calculated for the L21 B structure with Mn(B) and Al(D) site disorder, matching the experimental structural analysis. We thus attribute the deviation from half-metallic behaviour to the formation of the L21 B structure. To realize a half-metallic Mn2FeAl film it is important that the inverse Heusler XA structure is stabilized with minimal anti-site atomic disorder.

AB - In this work, we investigate the effect of anti-site disorder on the half-metallic properties of a Mn2FeAl Heusler alloy thin film. The film was grown on TiN-buffered MgO 001 substrates via magnetron sputtering. A detailed structural characterization using x-ray diffraction (XRD) and anomalous XRD showed that the film crystallizes in the partially disordered L21 B structure with 33% disorder between the Mn(B) and Al(D) sites. We measure a positive anisotropic magnetoresistance in the film, which is an indication of non-half metallic behaviour. Our x-ray magnetic circular dichroism sum rules analysis shows that Mn carries the magnetic moment in the film, with a positive Fe moment. Experimentally determined moments correspond most closely with those found by density functional calculated for the L21 B structure with Mn(B) and Al(D) site disorder, matching the experimental structural analysis. We thus attribute the deviation from half-metallic behaviour to the formation of the L21 B structure. To realize a half-metallic Mn2FeAl film it is important that the inverse Heusler XA structure is stabilized with minimal anti-site atomic disorder.

KW - Heusler alloy

KW - spin polarization

KW - spintronics

KW - thin films

KW - x-ray absorption spectroscopy

KW - x-ray diffraction

KW - x-ray magnetic circular dichroism

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