Local order in undercooled liquid metals: A tight binding molecular dynamics approach

We use constant (zero) pressure molecular dynamics based on a semi-empirical tight binding model to simulate the structures of liquid Ni, Cu, Pd and Au in the stable and undercooled states. We compare our data with the available experiments (neutron scattering for Ni, EXAFS for Pd). We analyze the structure in terms of Voronoi polyhedra and use the neighbors defined by this analysis to perform a Common Neighbors Analysis. We show that a small but significant difference in the number of bonds with five common neighbors exists between undercooled Ni and the other elements. We question the possible experimental observation of such a difference and its relevance to the issue of the existence of an icosahedral short range order in the liquid. (c) 2007 Elsevier B.V. All rights reserved.