Difference between revisions of "Hauptseminar Active Matter SS 2015"

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(Getting the credit points)
(Topics)
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General Topic: '''Driven and self-propelled colloidal particles'''
 
General Topic: '''Driven and self-propelled colloidal particles'''
  
* [[Hauptseminar_Active_Matter_SS_2015/Theoretical description of hydrodynamic interactions: Solving Stokes' Equations for Particles (T)|Theoretical description of hydrodynamic interactions: Solving Stokes' Equations for Particles (T)]]
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* [[Hauptseminar_Active_Matter_SS_2015/Theoretical description of hydrodynamic interactions: Solving Stokes' Equations for Particles (T)|Theoretical Description of Hydrodynamic Interactions: Solving Stokes' Equations for Particles (T)]]
* [[Hauptseminar_Active_Matter_SS_2015/Life at low Reynolds numbers: Nature's strategy for motion at small length scales (T)|Life at low Reynolds numbers: Nature`s strategy for motion at small length scales (T)]]
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* [[Hauptseminar_Active_Matter_SS_2015/Life at low Reynolds numbers: Nature's strategy for motion at small length scales (T)|Life at Low Reynolds Numbers: Nature`s Strategy for Motion at Small Length Scales (T)]]
* [[Hauptseminar_Active_Matter_SS_2015/Man-made realizations of mechanical swimmers (E)| Man-made realizations of mechanical swimmers (E)]]
+
* [[Hauptseminar_Active_Matter_SS_2015/Man-made realizations of mechanical swimmers (E)| Man-made Realizations of Mechanical Swimmers (E)]]
* [[Hauptseminar_Active_Matter_SS_2015/Gradient-based artifical microswimmers: Creation of man-made active particles (E)| Gradient-based artifical microswimmers: Creation of man-made active particles (E)]]
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* [[Hauptseminar_Active_Matter_SS_2015/Motion of passive particles in non-trivial flows (sorting of chiral particles) (E)|Swimming in Viscoelastic Media (E)]]
* [[Hauptseminar_Active_Matter_SS_2015/The standard diffusiophoretic and electrophoretic models (T)| The standard diffusiophoretic and electrophoretic models (T)]]
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* [[Hauptseminar_Active_Matter_SS_2015/Gradient-based artifical microswimmers: Creation of man-made active particles (E)|Gradient-Based Microswimmers (E)]]
* [[Hauptseminar_Active_Matter_SS_2015/Computer simulations of diffusiophoresis and electrophoresis (T)| Computer simulations of diffusiophoresis and electrophoresis (T)]]
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* [[Hauptseminar_Active_Matter_SS_2015/Self-diffusiophoretic and self-electrophoretic self-propelled particles (SPPs) (T)|The Standard (Self-)Diffusiophoretic Models (T)]]
* [[Hauptseminar_Active_Matter_SS_2015/Self-diffusiophoretic and self-electrophoretic self-propelled particles (SPPs) (T)| Self-diffusiophoretic and self-electrophoretic self-propelled particles (SPPs) (T)]]
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* [[Hauptseminar_Active_Matter_SS_2015/The standard diffusiophoretic and electrophoretic models (T)|The Standard (Self-)Electrophoretic Models (T)]]
* [[Hauptseminar_Active_Matter_SS_2015/Bubble-propulsion in artificial microswimmers: hollow cones, stomatocytes, and Janus particles (E)| Bubble-propulsion in artificial microswimmers: hollow cones, stomatocytes, and Janus particles (E)]]
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* [[Hauptseminar_Active_Matter_SS_2015/Computer simulations of diffusiophoresis and electrophoresis (T)|Computer Simulations of Active Matter: Lattice Boltzmann and the Squirmer Model (T)]]
* [[Hauptseminar_Active_Matter_SS_2015/Theoretical models for the bubble-propulsion of SPPs (T)| Theoretical models for the bubble-propulsion of SPPs (T)]]
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* [[Hauptseminar_Active_Matter_SS_2015/Computer simulations of diffusiophoresis and electrophoresis (T)|Computer Simulations of (Ionic) Self-Diffusiophoresis (T)]]
* [[Hauptseminar_Active_Matter_SS_2015/Experimental characterization of microswimmers: From single swimmers to crowding (E)| Experimental characterization of microswimmers: From single swimmers to crowding (E)]]
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* [[Hauptseminar_Active_Matter_SS_2015/Bubble-propulsion in artificial microswimmers: hollow cones, stomatocytes, and Janus particles (E)|Gravitaxis of Active Particles (E)]]
* [[Hauptseminar_Active_Matter_SS_2015/Swimming in confinement and in the presence of external fields (E)| Swimming in confinement and in the presence of external fields (E)]]
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* [[Hauptseminar_Active_Matter_SS_2015/Theoretical models for the bubble-propulsion of SPPs (T)|Theoretical Models for the Bubble-Propulsion of SPPs (T)]]
* [[Hauptseminar_Active_Matter_SS_2015/Motion of passive particles in non-trivial flows (sorting of chiral particles) (E)| Motion of passive particles in non-trivial flows (sorting of chiral particles) (E)]]
+
* [[Hauptseminar_Active_Matter_SS_2015/Bubble-propulsion in artificial microswimmers: hollow cones, stomatocytes, and Janus particles (E)|Swimming under Confinement and Rectification (E)]]
 +
* [[Hauptseminar_Active_Matter_SS_2015/Experimental characterization of microswimmers: From single swimmers to crowding (E)|Passive Particles in an Active Medium (E)]]
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* [[Hauptseminar_Active_Matter_SS_2015/Swimming in confinement and in the presence of external fields (E)|Active Particles in a Passive Medium (E)]]
  
 
The (T) or (E) after the talk title indicate if this topic would count towards an experimental or theoretical Seminar certificate:
 
The (T) or (E) after the talk title indicate if this topic would count towards an experimental or theoretical Seminar certificate:

Revision as of 18:58, 8 December 2014

Overview

Type
Seminar (Talks and Discussion)
Date and Time
weekly during the SS 2015, exact dates tba.
Location
Institut für Computerphysik, room tba
Credit Points
2 SWS = 3 CP (ECTS)
Teachers
Prof. Dr. Clemens Bechinger (2. PI)
Dr. Juan Ruben Gomez-Solano (2. PI)
Prof. Dr. Christian Holm (ICP)
Dr. Joost de Graaf (ICP)
Course Number
tba
Modules
tba
Language
English
Requirements
We expect the participants to have fundamental knowledge in classical and statistical mechanics, thermodynamics, electrodynamics, and partial differential equations.
Application (=Anmeldung) for the Seminar. Please write an email to Joost de Graaf until December 1. On December 10th at 13.15h at the ICP (seminar room 1.095) there will be a meeting to gauge the interest of the students, discuss the topics, and handle the topic assignment. Topics must be chosen before December 15.
There will be organizational meeting that will be mandatory to all participants in February 2015, probably during the first week of the winter break to discuss topics and style and other requirements.

Topics

General Topic: Driven and self-propelled colloidal particles

The (T) or (E) after the talk title indicate if this topic would count towards an experimental or theoretical Seminar certificate:

(T): Theoretical Seminar Talk (E): Experimental Seminar Talk

Getting the credit points

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

  • All participants must:
    • Make the first appointment with their supervisor 2 months (a minimum of 8 weeks) before giving their talk
    • Have read the literature provided on the website/by the supervisor before this first meeting
    • Hand in a draft of their presentation 1 month (a minimum of 4 weeks) before giving their talk
    • Give a trial talk 2 weeks in advance of their public talk and hand in their final draft of the handout
    • Give their talk at the arranged time
    • Be present at all talks
    • Take part in the discussions following the talks
  • The handout:
    • Consists of 8 to 10 A4 pages (incl. pictures; 10 pt font, single space text)
    • Describes the contents of the talk, written out in full
    • Is written for the other participants
    • Is written in English
  • The talk:
    • Consists of material pertaining to the topic
    • Has a length of 45 minutes
    • Is prepared in electronic form
    • Is held in English
  • Participants are graded according to:
    • The quality of the trial talk and final draft of the hand out (50%)
    • The quality of the final presentation (25%)
    • The level of participation in the discussion (25%)