Incorporation of surface correction and anharmonic correction to vacancy formation energy for nickel and copper: bridging the gap between Density Functional Theory and experiment

Abstract

Density functional theory (DFT) has been used to estimate vacancy formation enthalpy (Hfv) for a few transition metals like nickel (Ni) and copper (Cu). It is shown that, for these metals, Hfv is underestimated considerably by DFT. The aim of the present work is to bridge the gap between the estimates made by DFT calculations and experiments. The sources of this discrepancy are identified as to be related to the opening up of the surface like region surrounding the vacancy, and the temperature induced anharmonic contribution. The surface related correction to Hfv has been estimated by a jellium based model originally proposed by Mattsson et al. [Phys. Rev. B 73 (2006) 195123] and subsequently modified by Nandi et al. [J. Phys.:Cond. Matt. 22 (2010) 345501]. In this paper, we have estimated the temperature induced anharmonic contribution to Hfv using density functional perturbation theory. Finally, it is shown that incorporation of both the surface correction and anharmonic correction to Hfv, results in a better agreement with the experimental data.