Magnetic and electrical properties of Fe90Ta10 thin films

Surabhi Shaji; Nikhil R. Mucha; A. K. Majumdar; Christian Binek; Abebe Kebede; Dhananjay Kumar

doi:10.1016/j.jmmm.2019.165446

Magnetic and electrical properties of Fe90Ta10 thin films

Surabhi Shaji
, Nikhil R. Mucha
, A. K. Majumdar
, Christian Binek
, Abebe Kebede
, Dhananjay Kumar

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

11 Scopus citations

Abstract

Fe90Ta10 (Fe-Ta) thin films, deposited using a pulsed laser deposition (PLD) method, have been found to exhibit characteristics of a soft ferromagnetic material with very low coercivities (1–10 mT) and saturation magnetization ~1.6 × 106 A/m. Our temperature dependent magnetization data at several fields (0.1–3 T) have conclusively detected the anharmonic term in the magnon dispersion relation. Moreover, the rigid-band model for metallic alloys can predict correctly the magnetic moment of ~2 µB as found by us from the above magnetization data of Fe90Ta10. We have also observed an Extraordinary Hall Effect (EHE) in these films. The extrinsic quantum mechanical side-jump mechanism as well as the intrinsic mechanism (due to the Berry phase curvatures) are responsible for the EHE varying here as the square of the electrical resistivity. Thus, our interpretation of the data at every stage is backed by theoretical considerations.

Original language	English
Article number	165446
Journal	Journal of Magnetism and Magnetic Materials
Volume	489
DOIs	https://doi.org/10.1016/j.jmmm.2019.165446
State	Published - Nov 1 2019

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title = "Magnetic and electrical properties of Fe90Ta10 thin films",

abstract = "Fe90Ta10 (Fe-Ta) thin films, deposited using a pulsed laser deposition (PLD) method, have been found to exhibit characteristics of a soft ferromagnetic material with very low coercivities (1–10 mT) and saturation magnetization \textasciitilde{}1.6 × 106 A/m. Our temperature dependent magnetization data at several fields (0.1–3 T) have conclusively detected the anharmonic term in the magnon dispersion relation. Moreover, the rigid-band model for metallic alloys can predict correctly the magnetic moment of \textasciitilde{}2 µB as found by us from the above magnetization data of Fe90Ta10. We have also observed an Extraordinary Hall Effect (EHE) in these films. The extrinsic quantum mechanical side-jump mechanism as well as the intrinsic mechanism (due to the Berry phase curvatures) are responsible for the EHE varying here as the square of the electrical resistivity. Thus, our interpretation of the data at every stage is backed by theoretical considerations.",

author = "Surabhi Shaji and Mucha, \{Nikhil R.\} and Majumdar, \{A. K.\} and Christian Binek and Abebe Kebede and Dhananjay Kumar",

year = "2019",

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doi = "10.1016/j.jmmm.2019.165446",

language = "English",

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TY - JOUR

T1 - Magnetic and electrical properties of Fe90Ta10 thin films

AU - Shaji, Surabhi

AU - Mucha, Nikhil R.

AU - Majumdar, A. K.

AU - Binek, Christian

AU - Kebede, Abebe

AU - Kumar, Dhananjay

PY - 2019/11/1

Y1 - 2019/11/1

N2 - Fe90Ta10 (Fe-Ta) thin films, deposited using a pulsed laser deposition (PLD) method, have been found to exhibit characteristics of a soft ferromagnetic material with very low coercivities (1–10 mT) and saturation magnetization ~1.6 × 106 A/m. Our temperature dependent magnetization data at several fields (0.1–3 T) have conclusively detected the anharmonic term in the magnon dispersion relation. Moreover, the rigid-band model for metallic alloys can predict correctly the magnetic moment of ~2 µB as found by us from the above magnetization data of Fe90Ta10. We have also observed an Extraordinary Hall Effect (EHE) in these films. The extrinsic quantum mechanical side-jump mechanism as well as the intrinsic mechanism (due to the Berry phase curvatures) are responsible for the EHE varying here as the square of the electrical resistivity. Thus, our interpretation of the data at every stage is backed by theoretical considerations.

AB - Fe90Ta10 (Fe-Ta) thin films, deposited using a pulsed laser deposition (PLD) method, have been found to exhibit characteristics of a soft ferromagnetic material with very low coercivities (1–10 mT) and saturation magnetization ~1.6 × 106 A/m. Our temperature dependent magnetization data at several fields (0.1–3 T) have conclusively detected the anharmonic term in the magnon dispersion relation. Moreover, the rigid-band model for metallic alloys can predict correctly the magnetic moment of ~2 µB as found by us from the above magnetization data of Fe90Ta10. We have also observed an Extraordinary Hall Effect (EHE) in these films. The extrinsic quantum mechanical side-jump mechanism as well as the intrinsic mechanism (due to the Berry phase curvatures) are responsible for the EHE varying here as the square of the electrical resistivity. Thus, our interpretation of the data at every stage is backed by theoretical considerations.

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VL - 489

JO - Journal of Magnetism and Magnetic Materials

JF - Journal of Magnetism and Magnetic Materials

M1 - 165446

ER -

Magnetic and electrical properties of Fe90Ta10 thin films

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