Enhanced permeability dielectric FeCo/Al2O3 multilayer thin films with tailored properties deposited by magnetron sputtering on silicon

Enhanced permeability dielectric FeCo/Al2O3 multilayer thin films with tailored properties deposited by magnetron sputtering on silicon

We have studied the structural and magnetic properties of enhanced-permeability-dielectric FeCo/Al2O3-multilayer thin films deposited on 8"-Si wafers in an industrial magnetron sputtering system. The EPD-multilayers consist of 25 periods of alternating nanometer-thick FeCo-layers deposited by D...

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Main Authors: Claudiu V. Falub, Srinivas V. Pietambaram, Oguz Yildirim, Mojmír Meduňa, Ondrej Caha, Rachid Hida, Xue Zhao, Jan Ambrosini, Hartmut Rohrmann, Hans J. Hug
Format: Article
Language:English
Published: AIP Publishing LLC 2019-03-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.5079477
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spelling doaj-d0b957c74a034aabaed4d98dbc7925362020-11-25T01:08:41ZengAIP Publishing LLCAIP Advances2158-32262019-03-0193035243035243-610.1063/1.5079477092992ADVEnhanced permeability dielectric FeCo/Al2O3 multilayer thin films with tailored properties deposited by magnetron sputtering on siliconClaudiu V. Falub0Srinivas V. Pietambaram1Oguz Yildirim2Mojmír Meduňa3Ondrej Caha4Rachid Hida5Xue Zhao6Jan Ambrosini7Hartmut Rohrmann8Hans J. Hug9Evatec AG, Hauptstrasse 1a, CH-9477 Trübbach, SwitzerlandIntel Corporation, W. Chandler Blvd. 5000, Chandler, AZ 85226, United StatesNanoscale Materials Science, Empa, Überlandstrasse 129, CH-8600 Dübendorf, SwitzerlandDepartment of Condensed Matter Physics, Masaryk University, Kotlářska 2, CZ-61137 Brno, Czech RepublicDepartment of Condensed Matter Physics, Masaryk University, Kotlářska 2, CZ-61137 Brno, Czech RepublicUniv. Grenoble Alpes, CEA-LETI, Rue des Martyrs 17, FR-38054 Grenoble, FranceEvatec AG, Hauptstrasse 1a, CH-9477 Trübbach, SwitzerlandEvatec AG, Hauptstrasse 1a, CH-9477 Trübbach, SwitzerlandEvatec AG, Hauptstrasse 1a, CH-9477 Trübbach, SwitzerlandNanoscale Materials Science, Empa, Überlandstrasse 129, CH-8600 Dübendorf, SwitzerlandWe have studied the structural and magnetic properties of enhanced-permeability-dielectric FeCo/Al2O3-multilayer thin films deposited on 8"-Si wafers in an industrial magnetron sputtering system. The EPD-multilayers consist of 25 periods of alternating nanometer-thick FeCo-layers deposited by DC sputtering from a Fe60Co40 target and Al2O3-interlayers deposited by RF sputtering from an Al2O3 target. We tuned the magnetic properties of these thin films by varying the thickness of FeCo-layers from 1.1nm to 2.1nm, while the thickness of Al2O3-interlayers remained unchanged (3.5nm). The formation of layers of disconnected FeCo-nanoparticles separated by an Al2O3-matrix was revealed by grazing incidence small angle X-ray-scattering. Further insight into the microstructure of these layers was obtained from X-ray-reflectivity, highly asymmetric-X-ray-diffraction and non-coplanar grazing-incidence-diffraction. The Fe/Co ratio in the FeCo-layers obtained from X-ray-fluorescence measurements was (59±1)/(41±1), which is in very good agreement with the nominal value in the Fe60Co40 target. Using the standing wave technique we found that most of the Fe and Co atoms were located inside the polycrystalline grains, except for a small fraction that diffused into the Al2O3-matrix, and that the thinner the FeCo-layers thickness the higher the fraction of diffused atoms with respect to those in the grains. Zero-field-cooled, field-cooled, and hysteresis (B-H) and (M-H) measurements showed that the FeCo/Al2O3-multilayers with FeCo-layers thinner than 1.7–1.8 nm exhibit superparamagnetic behavior (no coercivity and remanence) at room temperature with peak relative low-field permeability up to 887. By exceeding this critical thickness, the neighboring FeCo-aggregates started to coalesce, and this led to the ferromagnetic behavior revealed by a finite coercivity and remanence in the hysteresis loops.http://dx.doi.org/10.1063/1.5079477
collection DOAJ
language English
format Article
sources DOAJ
author Claudiu V. Falub
Srinivas V. Pietambaram
Oguz Yildirim
Mojmír Meduňa
Ondrej Caha
Rachid Hida
Xue Zhao
Jan Ambrosini
Hartmut Rohrmann
Hans J. Hug
spellingShingle Claudiu V. Falub
Srinivas V. Pietambaram
Oguz Yildirim
Mojmír Meduňa
Ondrej Caha
Rachid Hida
Xue Zhao
Jan Ambrosini
Hartmut Rohrmann
Hans J. Hug
Enhanced permeability dielectric FeCo/Al2O3 multilayer thin films with tailored properties deposited by magnetron sputtering on silicon
AIP Advances
author_facet Claudiu V. Falub
Srinivas V. Pietambaram
Oguz Yildirim
Mojmír Meduňa
Ondrej Caha
Rachid Hida
Xue Zhao
Jan Ambrosini
Hartmut Rohrmann
Hans J. Hug
author_sort Claudiu V. Falub
title Enhanced permeability dielectric FeCo/Al2O3 multilayer thin films with tailored properties deposited by magnetron sputtering on silicon
title_short Enhanced permeability dielectric FeCo/Al2O3 multilayer thin films with tailored properties deposited by magnetron sputtering on silicon
title_full Enhanced permeability dielectric FeCo/Al2O3 multilayer thin films with tailored properties deposited by magnetron sputtering on silicon
title_fullStr Enhanced permeability dielectric FeCo/Al2O3 multilayer thin films with tailored properties deposited by magnetron sputtering on silicon
title_full_unstemmed Enhanced permeability dielectric FeCo/Al2O3 multilayer thin films with tailored properties deposited by magnetron sputtering on silicon
title_sort enhanced permeability dielectric feco/al2o3 multilayer thin films with tailored properties deposited by magnetron sputtering on silicon
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2019-03-01
description We have studied the structural and magnetic properties of enhanced-permeability-dielectric FeCo/Al2O3-multilayer thin films deposited on 8"-Si wafers in an industrial magnetron sputtering system. The EPD-multilayers consist of 25 periods of alternating nanometer-thick FeCo-layers deposited by DC sputtering from a Fe60Co40 target and Al2O3-interlayers deposited by RF sputtering from an Al2O3 target. We tuned the magnetic properties of these thin films by varying the thickness of FeCo-layers from 1.1nm to 2.1nm, while the thickness of Al2O3-interlayers remained unchanged (3.5nm). The formation of layers of disconnected FeCo-nanoparticles separated by an Al2O3-matrix was revealed by grazing incidence small angle X-ray-scattering. Further insight into the microstructure of these layers was obtained from X-ray-reflectivity, highly asymmetric-X-ray-diffraction and non-coplanar grazing-incidence-diffraction. The Fe/Co ratio in the FeCo-layers obtained from X-ray-fluorescence measurements was (59±1)/(41±1), which is in very good agreement with the nominal value in the Fe60Co40 target. Using the standing wave technique we found that most of the Fe and Co atoms were located inside the polycrystalline grains, except for a small fraction that diffused into the Al2O3-matrix, and that the thinner the FeCo-layers thickness the higher the fraction of diffused atoms with respect to those in the grains. Zero-field-cooled, field-cooled, and hysteresis (B-H) and (M-H) measurements showed that the FeCo/Al2O3-multilayers with FeCo-layers thinner than 1.7–1.8 nm exhibit superparamagnetic behavior (no coercivity and remanence) at room temperature with peak relative low-field permeability up to 887. By exceeding this critical thickness, the neighboring FeCo-aggregates started to coalesce, and this led to the ferromagnetic behavior revealed by a finite coercivity and remanence in the hysteresis loops.
url http://dx.doi.org/10.1063/1.5079477
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