* [[animation:workshops:2011:accueil|Workshops 2011]]

====== Polymer Dynamics : Entanglements and Architectures ======

Location : Capri, Italy  \\
July 26, 2011 to July 29, 2011

Organizers:
  * **Ralf Everaers**, École Normale Supérieure de Lyon, France
  * **Daniel Read**, University of Leeds, United Kingdom
  * **Giovanni Ianniruberto**, University Federico II, Naples, Italy
  * **Peter Olmsted**, University of Leeds , United Kingdom
  * **Alexei Likhtman**, University of Reading, United Kingdom

The workshop is supported by:
  * CECAM
  * Dynacop Marie Curie Initial Training Network
  * Eole Normale Supérieure de Lyon
  * Centre Blaise Pascal

===== Description =====

Polymeric materials exhibit complex dynamics and rheology and, in many cases, show hierarchical relaxation over many different timescales. This in turn affects the processing and properties of the final materials. Such fluids include branched low density polyethylene, which is a fundamental material that appears in plastics of all forms. The processing of these materials, and the relation to properties, has frustrated and encouraged industry for many years: a simple recurring problem is instability in extrusion that leads to imperfect plastic parts, and with costly results. The ability to predict and control this behaviour as a function of molecular chemistry has attracted a long history of collaboration between academia and industry.

Central to the understanding of polymer melt flow is the concept of "entanglements" - the simple idea that since long macromolecules are unable to pass through one another, their dynamics are severely restricted in the melt state. This simple concept has fuelled over 40 years of theoretical and computational research into polymer melt flow, with many successes. The central framework for this has been the "tube model", which derives from the notion that since chains cannot cross, the chains are restricted in their dynamics to a tube-like region of space: movement along the tube is allowed, but movement perpendicular to it prohibited. The general success of the tube model has, for many years, been able to disguise a problem, that no-one is really able to define (in a fundamental mathematical way) what an entanglement is! Disagreements between different exponents of the tube model often arise, and come down to different understandings of the nature of entanglements. It is also clear that some quantitative failings and lack of complete generality of the tube model can be traced to the same source. There is therefore an urgent need to set the science of entangled polymer dynamics on a more secure footing: at present this appears to require a hierarchy of modelling, and a rigorous attention to details of the coarse-graining procedure: from atomistic and coarse-grained molecular dynamics, through simplified single-chain models known as "sliplink" models, before moving on to tube models.

The central aim of this workshop is to bring together experts in all three levels of modelling with a view towards discussing the current state in each area and proposing methods for mapping between models.

===== Scientific Objectives =====
  - To bring together experts in molecular dynamics simulation, sliplink models and tube models, together with experimental scientists, in the field of entangled polymer dynamics.
  - To run a 3 day workshop as a satellite event to a 7 day summer school. The workshop will focus on computational and theoretical aspects of polymer dynamics.
  - To discuss and assess recent developments in molecular dynamics simulation, sliplink models and tube models, and to propose methods for coarse-graining by connecting all three levels of modelling.

===== Program =====
The workshop will run from the afternnon of July 26 (2pm) until lunchtime of July 29 (12noon).
  * Microscopic foundations
    * tube
    * entanglements
    * primitive paths 
  * Experimental insights
    * rheology
    * dielectric spectroscopy
    * optics
    * neutron scattering 
  * Beyond linear chains in linear regime
    * Non-linear viscoelasticity
    * branched polymers 
  * Multiscale modelling
    * Atomistic simulations
    * Coarsegrained simulations
    * Single chain models
    * Analytical theories 

===== References =====
  - McLeish TCB ADVANCES IN PHYSICS 2002, 51, 1379-1527
  - Everaers R, Sukumaran SK, Grest GS, Svaneborg C, Sivasubramanian A, Kremer K ; SCIENCE 2004, 303, 823-826
  - Sukumaran SK, Likhtman AE MACROMOLECULES 2009, 42, 4300-4309
  - Read DJ, Jagannathan K, Likhtman AE MACROMOLECULES 2008, 41, 6843-6853
  - Likhtman AE MACROMOLECULES 2005, 38, 6128-6139


===== Participants =====
^ Family name ^ First name ^ Institution ^
| MARTZEL	 | NICOLAS	 | MFPM |
| Likhtman	 | Alexei	 | University of Reading |
| Bacova	 | Petra	 | The University of The Basque Country |
| LIU	 | Li	 | Computational Biophysics University of Twente, The Netherlands |
| Cao	 | Jing	 | University of Reading |
| Larson	 | Ronald	 | Univ. of Michigan |
| McLeish	 | Tom	 | Durham University |
| Unidad	 | Herwin Jerome	 | Universita degli Studi di Napoli Federico II |
| Pyckhout-Hintzen | 	Wim	 | Research Centre Juelich/Juelich Centre for Neutron Science JCNS-1 |
| Shchetnikava	 | Volha	 | TU Eindhoven |
| Matveichuk	 | Oleg	 | Eindhoven University of Technology |
| HOU	 | Jixuan	 | ENS de Lyon |
| lentzakis	 | helen	 | Forth Foundation for research and technology hellas |
| Lungova	 | Marta	 | JCNS 1, Forschungszentrum Juelich, Germany |
| ruocco	 | nino	 | Forschungszentrum Jülich (JCNS-1) |
| Amin	 | Dipesh	 | University Of Reading |
| Brás	 | Ana	 | Jülich Centre for Neutron Science JCNS-1 & Institute for Complex Systems (ICS-1) |
| Zamponi	 | Michaela	 | JCNS, Forschungszentrum Juelich |
| Agimelen	 | Okpeafoh Stephen	 | University of Leeds |
| Carsten	 | Svaneborg	 | University of Sutheren Denmark |
| Hawke	 | Laurence	 | University of Leeds |
| Wang	 | Zuowei	 | University of Reading |
| MORENO	 | ANGEL	 | CENTRO DE FISICA DE MATERIALES (CSIC) |
| Vorselaars	 | Bart	 | University of Reading |
| Shivokhin	 | Maksim	 | UCL (Universite Catholique de Louvain) |
| Huang	 | Qian	 | Technical University of Denmark |
| Samiullah	 | Muhammad Haris 	 | Martin Luther University Halle, germany |
| Panagiotou	 | Eleni	 | National Technical University of Athens |
| Takimoto	 | Jun-ichi	 | Dept. Polymer Sci. & Engr., Yamagata University |
| Sukumaran	 | Sathish K.	 | Yamagata University |
| Karayiannis	 | Nikolaos	 | Universidad Politecnica de Madrid |
| Colby	 | Ralph	 | Penn State University |
| Anwar	 | Muhammad	 | University of Luxembourg |
| Rosa	 | Angelo	 | Scuola Internazionale Superiore di Studi Avanzati (SISSA) |
| Svaneborg	 | Carsten	 | University of Southern Denmark |
| Tzoumanekas	 | Christos	 | National Technical University of Athens (NTUA) and Dutch Polymer Institute (DPI) |
| Galuschko	 | Andre	 | Institute for Theoretical Physics / University of Göttingen |
| Chappa	 | Veronica	 | Institut für Theoretische Physik, Georg-August-Universität, Göttingen |
| Mulayim	 | Murat	 | Institut für Theoretische Physik Georg-August Universität  |