Short-range Atomic Topology of Ab initio Generated Amorphous PdSi Alloys

Abstract

Since the pioneering efforts of Duwez and coworkers in 1965, when a solid amorphous phase of Pd-Si (a-PdSi) was obtained in the vicinity of the eutectic concentration, much work has been done. However, some points related to the atomic structures remain to be systematized. In this work, 8 amorphous Pd100-cSic alloys (c = 2.5, 5, 10, 13.34, 15, 17.5, 20, and 22 at %) were generated by molecular dynamics ab initio simulations; the short-range structure is analyzed using several correlation functions, like Pair Distribution Functions, reduced Pair Distribution Functions, Plane Angle Distribution Functions. Other related properties, like nearest-neighbors and some Frank-Kasper polyhedra are reported. The generated samples correctly reproduce the scarce experimental pair correlation functions that are reported in the literature. An unexpected outcome is the appearance of structural changes in the neighborhood of Pd86.66Si13.34, which may be related to the magnetic changes reported in the liquid and amorphous Pd-Si alloys previously reported. The explicit amorphous topologies are reported.