Difference between revisions of "Hauptseminar Theorie und Simulation der weichen Materie SS 2013"

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** Contributions to the discussion
 
** Contributions to the discussion
  
== Themen und Betreuer (voraussichtliche zeitliche Reihenfolge) ==
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== Talks ==
:* [http://www.icp.uni-stuttgart.de/~icp/Hauptseminar_Theorie_und_Simulation_der_weichen_Materie_WS_2012/Grundlagen_MD_MC Grundlagen der Molekular-Dynamik und Monte-Carlo-Simulation] (Olaf Lenz)
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:* [http://www.icp.uni-stuttgart.de/~icp/Hauptseminar_Theorie_und_Simulation_der_weichen_Materie_WS_2012/Polymer_MD_MC Simulation von Polymeren mittels Monte-Carlo und Molekular-Dynamik-Methoden] (Olaf Lenz)
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{| class="wikitable"
:* [http://www.icp.uni-stuttgart.de/~icp/Hauptseminar_Theorie_und_Simulation_der_weichen_Materie_WS_2012/Grundlagen_BD Theorie der Brownschen Bewegung] (Felix Höfling)
+
 
:* [http://www.icp.uni-stuttgart.de/~icp/Hauptseminar_Theorie_und_Simulation_der_weichen_Materie_WS_2012/Langzeit Langzeitanomalien (long time tails) der Diffusion in Flüssigkeiten] (Matthias Krüger)
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|-
:* [http://www.icp.uni-stuttgart.de/~icp/Hauptseminar_Theorie_und_Simulation_der_weichen_Materie_WS_2012/Elektrostatik Behandlung von elektrostatischen Wechselwirkungen in Polyelektrolyt-Simulationen] (Jens Smiatek)
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! Date
:* [http://www.icp.uni-stuttgart.de/~icp/mediawiki/index.php?title=Hauptseminar_Theorie_und_Simulation_der_weichen_Materie_WS_2012/Elektrostatik Poisson-Boltzmann-Theorie: Vergleich zwischen Simulation und analytischen Resultaten] (Jens Smiatek)
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! Topic !! Speaker !! Tutor
:* [http://www.icp.uni-stuttgart.de/~icp/Hauptseminar_Theorie_und_Simulation_der_weichen_Materie_WS_2012/Grundlagen_FT Einführung in die Flüssigkeitstheorie] (Markus Bier)
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:* [http://www.icp.uni-stuttgart.de/~icp/Hauptseminar_Theorie_und_Simulation_der_weichen_Materie_WS_2012/Freie_Energie_Methoden Methoden zur Berechnung von freien Energien: Wang-Landau-Sampling, Umbrella Sampling und WHAM, Thermodynamische Integration] (Jens Smiatek)
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|-
:* [http://www.icp.uni-stuttgart.de/~icp/Hauptseminar_Theorie_und_Simulation_der_weichen_Materie_WS_2012/Grundlagen_DFT Dichtefunktionaltheorie] (Markus Bier)
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| 9.4.
:* [http://www.icp.uni-stuttgart.de/~icp/Hauptseminar_Theorie_und_Simulation_der_weichen_Materie_WS_2012/Grundlagen_Diff Diffusion in Vielteilchen-Suspensionen] (Matthias Krüger)
+
| Preparatory Meeting, How to give a talk
:* [http://www.icp.uni-stuttgart.de/~icp/Hauptseminar_Theorie_und_Simulation_der_weichen_Materie_WS_2012/Grundlagen_HI Hydrodynamische Wechselwirkungen] (Felix Höfling)
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:* [http://www.icp.uni-stuttgart.de/~icp/Hauptseminar_Theorie_und_Simulation_der_weichen_Materie_WS_2012/Meso_Sim Mesoskopische Simulationsmethoden: Lattice-Boltzmann, Dissipative Particle Dynamics und Stochastic Rotation Dynamics] (Jens Smiatek)
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|-
 +
| 23.4.
 +
| [[/MD-MC|Introduction to Molecular Dynamics and Monte-Carlo Simulations]]  
 +
| Kim Kafenda || [[Olaf Lenz]]
 +
 
 +
|-
 +
| 30.4.
 +
| [[/Theory of Liquids|Theory of Liquids]]
 +
| Martin Bauer || Markus Bier
 +
 
 +
|-
 +
| 7.5.
 +
| [[/Brownian Motion|Theory of Brownian Motion]]
 +
| Caterina Clausen || Felix Höfling
 +
 
 +
|-
 +
|14.5.
 +
| Track 1: [[/Grundlagen DFT|Density Functional Theory]]
 +
| Hendrik Bartsch || Markus Bier
 +
 
 +
|-
 +
|
 +
| Track 2: [[/Elektrostatics|Electrostatics Algorithms]]
 +
| Gabriel Sichardt || [[Olaf Lenz]]
 +
 
 +
|-
 +
| 28.5.
 +
| Track 1: [[/Liquid Crystals|Liquid Crystals]]
 +
| Venkata Cherikuri || Markus Bier
 +
 
 +
|-
 +
|
 +
| Track 2: [[/Hydrodynamics|Hydrodynamics]]  
 +
| Udo Höfel || Felix Höfling
 +
 
 +
|-
 +
| 4.6.
 +
| Track 1: [[/Nucleation|Nucleation]]
 +
| Kilian Dietrich || [[Jens Smiatek]], [[Joost de Graaf]]
 +
 
 +
|-
 +
|
 +
| Track 2: [[/Mesoscopic Simulation Methods|Mesoscopic Simulation Methods]]
 +
| Johannes Schmidt || [[Jens Smiatek]]
 +
 
 +
|-
 +
| 11.6.
 +
| Common Talk: [[/Poisson-Boltzmann Theory|Poisson-Boltzmann Theory]]
 +
| Kai Szuttor || [[Jens Smiatek]]
 +
 
 +
|-
 +
| 18.6.
 +
| Track 1: [[/Polymer Theory|Polymer Theory]]
 +
| Eva Schöll || Markus Bier
 +
 
 +
|-
 +
|
 +
| Track 2: [[/Diffusion in Many-particle Suspensions|Diffusion in Many-particle Suspensions]]
 +
| Moritz Förster || Matthias Krüger
 +
 
 +
|-
 +
| 25.6.
 +
| Track 1: [[/Polymer Simulations|Polymer Simulations]]
 +
| Samuel Wagner || [[Olaf Lenz]]
 +
 
 +
|-
 +
|
 +
| Track 2: [[/Anomalous Transport|Anomalous Transport]]
 +
| Moritz Scholze || Felix Höfling
 +
 
 +
|-
 +
| 2.7.
 +
| Track 1: [[/Computing Free Energies|Computing Free Energies]]
 +
| Larissa Dill || [[Jens Smiatek]]
 +
 
 +
|-
 +
|
 +
| Track 2: [[/Long-time Anomalies of the Diffusion in Liquids|Long-time Anomalies of the Diffusion in Liquids]]
 +
| Cedric Kiefer || Matthias Krüger
 +
 
 +
|-
 +
| 9.7.
 +
| Track 1: [[/Electrophoresis|Electrophoresis]]
 +
| Florian Jung || [[Jens Smiatek]], [[Owen Hickey]]
 +
 
 +
|-
 +
|
 +
| Track 2: [[/Microswimmers|Microswimmers]]
 +
| Jannick Fischer || [[Jens Smiatek]], [[Joost de Graaf]]
 +
 
 +
|}

Revision as of 12:13, 21 March 2013

Overview

Type
Seminar (Talks and Discussion)
Date and Time
Tuesday, 13:45-15:15 (1st date: April 9)
Location
Institut für Computerphysik, Seminar room 1.079
Credit Points
2 SWS = 3 CP
Teachers
Dr. Jens Smiatek (ICP)
Dr. Olaf Lenz (ICP)
Dr. Felix Höfling (MPI für Intelligente Systeme)
Dr. Matthias Krüger (MPI für Intelligente Systeme)
Dr. Markus Bier (MPI für Intelligente Systeme)
Veranstaltungsnummer
04570
Zugeordnete Module
PO 2011: 31620 Hauptseminar in Theoretischer Physik (benoteter Leistungsnachweis)
PO 2010: 28300 Fortgeschrittene Vielteilchentheorie (unbenoteter Leistungsnachweis als Prüfungsvorleistung)
Kurssprache
Englisch

Requirements

We expect the participants to have fundamental knowledge in classical and statistical mechanics, thermodynamics, electrodynamics, and partial differential equations.

Getting the credit points

To get the credit points for the seminar, the following criteria should be met:

  • All participants have to be present in all talks and play a part in the discussions.
  • Instead of writing a report after the talk, we expect the participants to distribute a handout in the week before and send it to Jens to be put up on the web page.
    • The handout is to be written in English.
    • All participants are expected to read the handout as preparation to the talk.
    • It should describe the contents of the talk, written out in full.
    • It should have 5 to 10 pages.
    • If available, up to three original articles can be attached to the handout.
  • The talk is to be given at the arranged time.
    • The talk is to be held in English.
    • The talk should take 40 to 45 minutes.
    • We recommend to prepare electronic slides for the talk.
    • They can be displayed on your own laptop or on the institute's laptop. In the first case, please check whether the projection works before the actual date, in the latter case, please contact us well beforehand so that we will bring the laptop.
    • After the talk, there will be a discussion on the talk, where all participants are expected to actively contribute.
    • After the discussion, we will give hints on how to improve the presentation.
  • For the participants that require a grade (PO 2011), the following aspects will be important:
    • Quality of the talk (contents, presentation, slides)
    • Quality of the handout (contents, readability)
    • Contributions to the discussion

Talks

Date Topic Speaker Tutor
9.4. Preparatory Meeting, How to give a talk
23.4. Introduction to Molecular Dynamics and Monte-Carlo Simulations Kim Kafenda Olaf Lenz
30.4. Theory of Liquids Martin Bauer Markus Bier
7.5. Theory of Brownian Motion Caterina Clausen Felix Höfling
14.5. Track 1: Density Functional Theory Hendrik Bartsch Markus Bier
Track 2: Electrostatics Algorithms Gabriel Sichardt Olaf Lenz
28.5. Track 1: Liquid Crystals Venkata Cherikuri Markus Bier
Track 2: Hydrodynamics Udo Höfel Felix Höfling
4.6. Track 1: Nucleation Kilian Dietrich Jens Smiatek, Joost de Graaf
Track 2: Mesoscopic Simulation Methods Johannes Schmidt Jens Smiatek
11.6. Common Talk: Poisson-Boltzmann Theory Kai Szuttor Jens Smiatek
18.6. Track 1: Polymer Theory Eva Schöll Markus Bier
Track 2: Diffusion in Many-particle Suspensions Moritz Förster Matthias Krüger
25.6. Track 1: Polymer Simulations Samuel Wagner Olaf Lenz
Track 2: Anomalous Transport Moritz Scholze Felix Höfling
2.7. Track 1: Computing Free Energies Larissa Dill Jens Smiatek
Track 2: Long-time Anomalies of the Diffusion in Liquids Cedric Kiefer Matthias Krüger
9.7. Track 1: Electrophoresis Florian Jung Jens Smiatek, Owen Hickey
Track 2: Microswimmers Jannick Fischer Jens Smiatek, Joost de Graaf