Physics – Condensed Matter – Materials Science
Scientific paper
2000-09-11
Physics
Condensed Matter
Materials Science
9 pages with 2 figures (eps) included, Latex 2.09, uses REVTEX style, submitted to Phys. Rev. B
Scientific paper
10.1103/PhysRevB.63.235415
Quantum Monte Carlo methods have proven to predict atomic and bulk properties of light and non-light elements with high accuracy. Here we report on the first variational quantum Monte Carlo (VMC) calculations for solid surfaces. Taking the boundary condition for the simulation from a finite layer geometry, the Hamiltonian, including a nonlocal pseudopotential, is cast in a layer resolved form and evaluated with a two-dimensional Ewald summation technique. The exact cancellation of all Jellium contributions to the Hamiltonian is ensured. The many-body trial wave function consists of a Slater determinant with parameterized localized orbitals and a Jastrow factor with a common two-body term plus a new confinement term representing further variational freedom to take into account the existence of the surface. We present results for the ideal (110) surface of Galliumarsenide for different system sizes. With the optimized trial wave function, we determine some properties related to a solid surface to illustrate that VMC techniques provide standard results under full inclusion of many-body effects at solid surfaces.
Bahnsen R.
Eckstein Hartmut
Fitzer N.
Redmer Ronald
Schattke W.
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