English

P3M algorithm for dipolar interactions

Computational Physics 2010-12-08 v2
Authors: Juan J. Cerda , V. Ballenegger , O. Lenz , C. Holm
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Abstract

An extension to the P3M algorithm for electrostatic interactions is presented, that allows to efficiently compute dipolar interactions in periodic boundary conditions. Theoretical estimates for the root-mean square error of the forces, torques and the energy are derived. The applicability of the estimates is tested and confirmed in several numerical examples. A comparison of the computational performance of the new algorithm to state-of-the-art dipolar Ewald summation methods shows a performance crossover from the Ewald method to the dipolar P3M method for as few as 300 dipolar particles. In larger systems, the new algorithm represents a substantial improvement in performance with respect to the dipolar standard Ewald method.

Keywords

computational physics statistical algorithms proper orthogonal decomposition

Cite

@article{arxiv.0805.4783,
  title  = {P3M algorithm for dipolar interactions},
  author = {Juan J. Cerda and V. Ballenegger and O. Lenz and C. Holm},
  journal= {arXiv preprint arXiv:0805.4783},
  year   = {2010}
}

Comments

56 pages, 7 figures

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