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Alloy Synthesis by Atomic Layer Laminations for Read Sensor Applications

Published online by Cambridge University Press:  01 February 2011

Chih-Ling Lee
Affiliation:
clee@veeco.com, Veeco Instruments Inc, Process Development, 3100 Laurelview Court, Fremont, CA, 94538, United States
Adrian J Devasahayam
Affiliation:
adevasahayam@veeco.com, Veeco Instruments Inc, 1 Terminal Drive, Plainview, NY, 11803, United States
Ming Mao
Affiliation:
mmao@veeco.com, Veeco Instruments Inc, 3100 Laurelview Court, Fremont, CA, 94538, United States
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Abstract

A novel method has been developed for synthesis of multi-element alloys by planetary magnetron sputter deposition techniques. The alloy is formed by alternating depositions of uniform ultra-thin component layers at a fraction of a mono-atomic layer, or atomic layer lamination. A minimal layer thickness of down to 0.1Å can be obtained such that the components can be mixed at atomic level forming a homogeneous alloy.

A typical example is demonstrated here for the synthesis of CoxFe1−x alloys by alternating depositions of Co and Fe layers from pure element targets. The compositional dependence of the laminates basically reconstructs the well-known Slater-Pauling curve of the bulk CoxFe1−x alloys. The laminates exhibit a clear structural transition at Co compositions between 60 and 80 % from fcc phase to bcc phase, characteristic of bulk CoxFe1−x alloys. The novel atomic layer lamination has been successfully applied to the composition optimization of CoFe pinned layer with a best pinning strength at Co70Fe30 for exchange biased spin-valve films.

Type
Research Article
Copyright
Copyright © Materials Research Society 2006

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References

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