DocumentCode
15192
Title
Fabrication of Fully-Epitaxial Co 
MnSi/Ag/Co MnSi Giant Magnetoresistive Devi
Author
Sakuraba, Y. ; Izumi, Kiyotaka ; Koganezawa, Tomoyuki ; Bosu, Subrojati ; Okura, Ryo ; Ueda, Makoto ; Kojima, T. ; Saito, Kazuyuki ; Takanashi, Koki
Author_Institution
Inst. for Mater. Res., Tohoku Univ., Sendai, Japan
Volume
49
Issue
11
fYear
2013
fDate
Nov. 2013
Firstpage
5464
Lastpage
5468
Abstract
(001)-oriented epitaxial Co2MnSi (CMS) films were grown by elevating the substrate temperature during deposition instead of a conventional post-annealing process. The CMS film deposited at 250°C showed a very flat surface morphology, large saturation magnetization, and a highly L21-ordered crystal structure. A CMS/Ag/CMS giant-magnetoresistive device with CMS layers grown at 250°C showed the high magnetoresistance ratio (33%) at room temperature. This ratio was close to that realized in the case of samples fabricated using post-annealing at 500-550°C. The elevated temperature deposition for the Heusler electrodes is a promising method to fabricate a practical magnetic read sensor for next generation hard disc drives without high temperature annealing process over 300°C.
Keywords
cobalt alloys; giant magnetoresistance; magnetic epitaxial layers; magnetic thin film devices; magnetisation; magnetoresistive devices; manganese alloys; metallic epitaxial layers; silicon alloys; silver; sputter deposition; surface morphology; (001)-oriented epitaxial films; Co2MnSi-Ag-Co2MnSi; Heusler electrodes; L21-ordered crystal structure; fully-epitaxial giant magnetoresistive devices; magnetic read sensor; next generation hard disc drives; saturation magnetization; substrate temperature; surface morphology; temperature 250 degC; temperature 293 K to 298 K; temperature deposition; CPP-GMR; Heusler alloys; half-metal; spintronics;
fLanguage
English
Journal_Title
Magnetics, IEEE Transactions on
Publisher
ieee
ISSN
0018-9464
Type
jour
DOI
10.1109/TMAG.2013.2271608
Filename
6549120
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