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Solid-state interfacial reaction and asymmetric growth of amorphous interlayers in Ni/Nb multilayers. Molecular-dynamics simulation together with experiments

The European Physical Journal B - Condensed Matter and Complex Systems Aims and scope Submit manuscript

Abstract:

An embedded-atom potential for the Ni-Nb system is constructed using physical properties obtained from first-principle calculations. Employing the potential, molecular-dynamics simulations are performed to study the interfacial reaction in Ni/Nb multilayers upon annealing at medium temperatures. The results show that a preset disordered interlayer, which is obtained by exchanging Ni and Nb atoms in the interfaces, may act as a nucleus of amorphous phase and is usually necessary for amorphization. It is found that the growth of the amorphous interlayer is in a planar mode and exhibits an asymmetric behavior due to a faster consumption of Ni than that of the Nb layer; this is also indeed observed experimentally. Moreover, performing a simulation with solid solution models, it is found that the Nb lattice can accommodate a large number of Ni atoms and still retain a crystalline structure, while a small amount of Nb atoms induce a spontaneous decay of the Ni lattice. Such differences in solid solubility is thought to be the physical origin of the asymmetric growth observed in experiments and simulations.

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Received 7 June 1999 and Received in final form 12 January 2000

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Zhang, Q., Lai, W., Yang, G. et al. Solid-state interfacial reaction and asymmetric growth of amorphous interlayers in Ni/Nb multilayers. Molecular-dynamics simulation together with experiments. Eur. Phys. J. B 16, 223–231 (2000). https://doi.org/10.1007/s100510070223

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  • DOI: https://doi.org/10.1007/s100510070223

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