Interatomic interactions in the effective-medium theory Export

@article{jacobsen_87_interatomic, abstract = {An expression is derived for the total energy of a system of interacting atoms based on an ansatz for the total electron density of the system as a superposition of atom densities taken from calculations for the atoms embedded in a homogeneous electron gas. This leads to an expression for the interaction energy in terms of the embedding energy of the atoms in a homogeneous electron gas, and corrections accounting, for instance, for the d-d hybridization in the transition metals. The density of the homogeneous electron gas is chosen as the average of the density from the surrounding atoms. Due to the variational property of the total-energy functional, the errors in the interaction energy are second order in the deviation of the ansatz density from the true ground-state value. The applicability of the approach is illustrated by calculations of the cohesive properties of some simple metals and all the 3d transition metals. The interaction energy can be expressed in a form simple enough to allow calculations for low-symmetry systems and is very well suited for simulations of time-dependent and finite-temperature problems. Preliminary results for the phonon-dispersion relations and the surface energies and relaxations for Al are used to illustrate the versatility of the approach. The division of the total energy into a density-dependent part, an electrostatic pair-potential part, and a hybridization part provides a very simple way of understanding a number of these phenomena.}, author = {Jacobsen, K. W. and Norskov, J. K. and Puska, M. J.}, citeulike-article-id = {490944}, citeulike-linkout-0 = {http://prola.aps.org/abstract/PRB/v35/i14/p7423_1}, day = {15}, journal = {Physical Review B}, keywords = {emt, my\_gb\_article}, month = {May}, number = {14}, pages = {7423--7442}, posted-at = {2006-02-03 11:19:50}, priority = {2}, title = {Interatomic interactions in the effective-medium theory}, url = {http://prola.aps.org/abstract/PRB/v35/i14/p7423_1}, volume = {35}, year = {1987} }

TY - JOUR ID - jacobsen_87_interatomic L3 - citeulike-article-id:490944 N2 - An expression is derived for the total energy of a system of interacting atoms based on an ansatz for the total electron density of the system as a superposition of atom densities taken from calculations for the atoms embedded in a homogeneous electron gas. This leads to an expression for the interaction energy in terms of the embedding energy of the atoms in a homogeneous electron gas, and corrections accounting, for instance, for the d-d hybridization in the transition metals. The density of the homogeneous electron gas is chosen as the average of the density from the surrounding atoms. Due to the variational property of the total-energy functional, the errors in the interaction energy are second order in the deviation of the ansatz density from the true ground-state value. The applicability of the approach is illustrated by calculations of the cohesive properties of some simple metals and all the 3d transition metals. The interaction energy can be expressed in a form simple enough to allow calculations for low-symmetry systems and is very well suited for simulations of time-dependent and finite-temperature problems. Preliminary results for the phonon-dispersion relations and the surface energies and relaxations for Al are used to illustrate the versatility of the approach. The division of the total energy into a density-dependent part, an electrostatic pair-potential part, and a hybridization part provides a very simple way of understanding a number of these phenomena. IS - 14 JF - Physical Review B EP - 7442 TI - Interatomic interactions in the effective-medium theory VL - 35 SP - 7423 KW - emt KW - my_gb_article AU - Jacobsen, KW AU - Norskov, JK AU - Puska, MJ PY - 1987/05/15/ UR - http://prola.aps.org/abstract/PRB/v35/i14/p7423_1 ER -