Interface and Transport Dynamics

Computational Modelling

• Author(s): Heike Emmerich, Britta Nestler, Michael Schreckenberg,
• Publisher: Springer Science & Business Media
• Pages: 437
• ISBN_10: 3662079690
  ISBN_13: 9783662079690
  
• Language: en
• Categories: Computers / Networking / Hardware , Computers / Computer Science , Science / Physics / Mathematical & Computational , Science / Mechanics / Thermodynamics , Technology & Engineering / Engineering (General) , Computers / Networking / General , Mathematics / Applied ,

Description:... The workshop on "computational physics of transport and interfacial dynam ics" was held in Dresden, Germany from February 25 to March 8,2002. The Max Planck Institute for the Physics of Complex Systems has sponsored the workshop and the preliminary lecture-based seminar. The workshop has closely pursued the recent progress of research in com putational physics and materials science, particularly in modelling both traf fic fiow phenomena and complex multi-scale solidification. These branches of science have become topics of considerable diversity linking disciplines as different as physics, mathematical and computational modelling, nonlinear dynamics, materials sciences, statistical mechanics and foundry technique. The international workshop brought together experts from different fields in order to enhance the exchange of knowledge, to assess common interests and to provide closer cooperation between different communities of researchers. The workshop intended to create a comprehensive and coherent image of the current research status and to formulate various possible perspectives for joint future activities. Special emphases laid on exchanging experiences concerning numerical tools and on the bridging of the scales as necessary in a variety of scientific and engineering applications. An interesting possibility along this line was the coupling of different computational approaches leading to hybrid simulations. In this sense, we explicitly addressed researchers working with different numerical schemes as diverse as cellular automata, coupled maps, fi nite difference and finite element algorithms for partial differential equations (e. g. phase-field computations).