Difference between revisions of "Longrange Interactions"
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==Material== | ==Material== | ||
− | A. Arnold and C. Holm. | + | |
− | A. Arnold and C. Holm. | + | A. Arnold and C. Holm. ''Simulating Charged Systems with ESPResSo.'' In Lecture Notes in Physics, 703, 2006. |
+ | |||
+ | A. Arnold and C. Holm. ''Efficient methods to compute long range interactions for soft matter systems.'' In C. Holm and K. Kremer, Advanced Computer Simulation Approaches for Soft Matter Sciences II, Springer, 59-109, 2005. | ||
== Script == | == Script == | ||
[[media:Script_Longrange_Interactions.pdf| Script (work in progress)]] | [[media:Script_Longrange_Interactions.pdf| Script (work in progress)]] |
Revision as of 23:24, 8 August 2010
Overview
- Type
- Lecture
- Lecturer
- JP Dr. Axel Arnold
- Course language
- English
- Time and Room
- August 2-25, Monday and Wednesday, 11:00 - 12:30, V27.03, Pfaffenwaldring 27
Topics
- boundary conditions and conditional convergence of the Coulomb sum
- Ewald method
- mesh-accelerated Ewald methods (P$^3$M, SPME)
- Tree codes/ fast multipole methods
- Maggs' method (MEMD)
- MMM, MMM2D, MMM1D
- Electrostatic Layer Correction (ELC)
Prerequisites
Knowledge of basic numerical techniques and computer simulations.
Material
A. Arnold and C. Holm. Simulating Charged Systems with ESPResSo. In Lecture Notes in Physics, 703, 2006.
A. Arnold and C. Holm. Efficient methods to compute long range interactions for soft matter systems. In C. Holm and K. Kremer, Advanced Computer Simulation Approaches for Soft Matter Sciences II, Springer, 59-109, 2005.