Difference between revisions of "Simulationsmethoden II"

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| Biomolecular simulations part II
  
  
 
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| treatment of Long range interactions, Ewald sum
  
  
 
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Mesoscoic hydrodynamics part I
  
 
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Revision as of 14:17, 18 June 2009

Overview

Simulationsmethoden in der Physik II:Simulation Methods in Physics II

Type
Lecture (2 SWS) and Tutorials (2 SWS)
The course will take place during the last 6 weeks of the semester with 4 hours per week lectures, and 4 hours tutorial
Lecturer
Prof. Dr. Christian Holm (Lecture) and Joan Josep Cerdà, Fatemeh Tabatabaei, Nadezhda Gribova (Tutorials)
Course language
Deutsch oder Englisch, wie gewünscht- German or English, by vote
Time and Room
Lecture times: Tue 11.30 - 13.00 in V57.04 and Wed 9.45 - 11.15 in V57.02

The lecture is accompanied by hands-on-tutorials which will take place in the CIP-Pool of the ICP, Pfaffenwaldring 27, U 108. They consist of practical exercises at the computer, like small programming tasks, simulations, visualization and data analysis. The tutorials build on each other, therefore continuous attendance is expected. Tutorials are split in two parts 2 hours each on Wednesdays 14.00-15.30 and on Thursdays 17.15-18.45.

Scope

The course will give an introduction to modern simulational techniques, like Monte-Carlo (MC) and Molecular dynamics (MD) simulations (on- and off-lattice), and how to solve non-linear PDEs like the Poisson-Boltzmann equation.

Prerequisites

We expect the participants to have basic knowledge in classical and statistical mechanics, thermodynamics, electrodynamics, and partial differential equations, as well as knowledge of a programming language (preferably C or C++). The attendance of Simulation Methods I or having aquired similar knowledge is assumed.

Certificate Requirements:

1. Attendance of the exercise classes
2. Obtaining 50% of the possible marks in the hand-in exercises

Lecture

Date Subject
9.6. Biomolecular simulations part I
10.6. Biomolecular simulations part II


16.6. water models, the born model for continuum electrostatics
17.6. Coarse grain strategies, Langevin Dynamics, polymer simulations
23.6. treatment of Long range interactions, Ewald sum


24.6. particle mesh and other methods
30.6. the repton model
1.7. Mesoscoic hydrodynamics part I
7.7. Mesoscoic hydrodynamics part II


8.7.
14.7.
15.7.
21.7.
22.7. last lecture of Simulationsmethoden II


Tutorials (U 108)

Date Subject

Recommended literature


Available E-Books

D.P. Landau and K. Binder.

"A guide to Monte Carlo Simulations in Statistical Physics"