Influence of nanocrystal growth kinetics on interface roughness in nickel–aluminum multilayers

We study the layer morphology of Ni/Al multilayer structures, with 50 nm period, as deposited and following 10 min anneals up through the melting temperature of Al. X-ray reflectivity measurement of the as-deposited film shows interference fringes, characteristic of a well-defined multilayer stack,...

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Bibliographic Details
Published in:Applied physics letters 2003-12, Vol.83 (26), p.5437-5439
Main Authors: Aurongzeb, D., Holtz, M., Daugherty, M., Berg, J. M., Chandolu, A., Yun, J., Temkin, H.
Format: Article
Language:English
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Summary:We study the layer morphology of Ni/Al multilayer structures, with 50 nm period, as deposited and following 10 min anneals up through the melting temperature of Al. X-ray reflectivity measurement of the as-deposited film shows interference fringes, characteristic of a well-defined multilayer stack, with ∼1 nm interface roughness. Over a narrow anneal range of 360–500 °C these fringes diminish in amplitude and disappear, indicating elevated interface roughening. However, fringes are observed for anneal temperatures both below and above this range, indicating the presence of well-defined layers with smooth interfaces. A model, in which nanocrystal domains of intermetallic nickel aluminides form at the interfaces, is developed to quantify the annealing induced interface roughness. This model agrees well with the experimental results.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.1637155