Open AccessElectrostatic layer correction with image charges: A linear scaling method to treat slab 2D+h systems with dielectric interfaces
Author(s) -
Sandeep Tyagi,
Axel Arnold,
Christian Holm
Publication year - 2008
Publication title -
the journal of chemical physics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.071
H-Index - 357
eISSN - 1089-7690
pISSN - 0021-9606
DOI - 10.1063/1.3021064
Subject(s) - dielectric , scaling , periodic boundary conditions , planar , slab , linear scale , electrostatics , polarization (electrochemistry) , generalization , image (mathematics) , materials science , boundary value problem , optics , mathematical analysis , physics , mathematics , computer science , geometry , chemistry , optoelectronics , quantum mechanics , artificial intelligence , computer graphics (images) , geodesy , geophysics , geography
A fast algorithm for dealing with electrostatic interactions in partially periodic systems that are confined along the nonperiodic direction by two planar dielectric interfaces is presented. The method is a generalization of the electrostatic layer correction (ELC) method of Arnold et al. [J. Chem. Phys. 117, 2496 (2002)], and employs an exact relation between the 2D+h system and a three-dimensional (3D) periodic system. The terms connecting the two systems can be evaluated linearly in the number of charges. Thus, the method shows overall the scaling of the underlying method employed to handle the Coulombic 3D case. Moreover, our algorithm can accurately handle multiple polarization image charges due to the dielectric interfaces as well as all the periodic images due to the periodic boundary conditions and has full control over the errors depending on the underlying method used for the 3D periodic case
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