Difference between revisions of "Table of contents"

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(Created page with "== Table of content of thesis == === Introduction === === Background === * The literature review section of my rapport d'avancement covers about 60% of work that I will cover ...")
 
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* Massimo suggested, and I agree, that I write an "approaches to the yield predictions" paper. In that paper, I would include the aforementioned approaches. [not yet published]
 
* Massimo suggested, and I agree, that I write an "approaches to the yield predictions" paper. In that paper, I would include the aforementioned approaches. [not yet published]
 
=== Dynamics of aggregating / self-assembling systems ===
 
=== Dynamics of aggregating / self-assembling systems ===
* Nicolas has developed visual tracking system and used it to find
+
* Nicolas has developed visual tracking system and used it to find:
  +
** Time evolution of aggregation
  +
** Distance distribution
  +
** Velocity distribution
 
* Collaboration with Korean Institute of Science and Technology [Leon Abelmann, Tijmen Hageman, etc.]
 
* Collaboration with Korean Institute of Science and Technology [Leon Abelmann, Tijmen Hageman, etc.]
 
** Found the different energy regimes for our aggregating system
 
** Found the different energy regimes for our aggregating system

Revision as of 12:15, 17 May 2016

Table of content of thesis

Introduction

Background

  • The literature review section of my rapport d'avancement covers about 60% of work that I will cover in my doctoral thesis

Theoretical treatment of incompatible substructure problem

  • SWARM2015 conference paper presents initial findings of yield predictions [published]
  • Extended yield predictions journal paper [not yet published]

Approaches to solve the incompatible substructure problem

Self-assembly
Changing geometry
Conformational switching
Use of high inertia components
  • Massimo suggested, and I agree, that I write an "approaches to the yield predictions" paper. In that paper, I would include the aforementioned approaches. [not yet published]

Dynamics of aggregating / self-assembling systems

  • Nicolas has developed visual tracking system and used it to find:
    • Time evolution of aggregation
    • Distance distribution
    • Velocity distribution
  • Collaboration with Korean Institute of Science and Technology [Leon Abelmann, Tijmen Hageman, etc.]
    • Found the different energy regimes for our aggregating system
    • Established that outside the ballistic regime, the components perform "random walk"
      • The data neatly fits into a Rayleigh distribution

Conclusions