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Polarized neutron reflectometry study of Fe16N2 with Giant Saturation Magnetization prepared by N Inter-diffusion in Annealed Fe-N Thin Films

We report a synthesis route to grow iron nitride thin films with giant saturation magnetization (Ms) through an N inter-diffusion process. By post annealing Fe/Fe-N structured films grown on GaAs(001) substrates, nitrogen diffuses from the over-doped amorphous-like Fe-N layer into strained crystalline Fe layer and facilitates the development of metastable Fe16N2 phase. As explored by polarized neutron reflectometry, the depth-dependent Ms profile can be well described by a model with the presence of a giant Ms up to 2360 emu/cm3 at near-substrate interface, corresponding to the strained regions of these annealed films. This is much larger than the currently known limit (Fe65Co35 with Ms \sim 1900 emu/cm3). The present synthesis method can be used to develop writer materials for future magnetic recording application.

preprint2012arXivOpen access
Nian JiValeria LauterHailemariam AmbayeXiaowei ZhangSarbeswar SahooMike KautzkyMark KiefJian-Ping Wang
cond-mat.mtrl-sci
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Nian JiValeria LauterHailemariam AmbayeXiaowei ZhangSarbeswar SahooMike KautzkyMark KiefJian-Ping Wang

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