The scientific goal of the project is to develop a multi-scale computational method that uses a single hierarchical data-structure as basis – involving also multiple fields. Starting from mesoscopic structures (particles or domains) a grid is constructed on a hierarchical, tree-based data structure. The hierarchical approach allows for micro-macro transition, coupling of different fields, and coarsening or refinement – where possible or needed, respectively.

Special issue of the "Journal of Computational and Theoretical Nanoscience," edited by Markus Buehler

10th US National Congress on Computational Mechanics

July 16-19, 2009. Columbus, Ohio

A mini-symposium on Extended/generalized FEM and other partition of unity based methods

mini-symposium 2.14.2

Call for papers

Dr. Kassab’s Cardiovascular Biomechanics Lab (Indiana University-Purdue University Indianapolis, IUPUI) is seeking a post doctoral fellow in micromechanics and multiscale modeling/simulation of the mechanical behaviors of coronary arteries. The project is well funded by NIH. Please see attachments for description of the position  and abstract of the research plan.

Mellichamp Chair in Systems Biology. The University of California Santa Barbara seeks to hire a highly creative and productive individual to fill a Mellichamp Chair in Systems Biology. The opening has resulted from a philanthropic gift that has been generously donated by Duncan and Suzanne Mellichamp.

Candidates at all levels will be considered. The primary academic appointment will be in either Mechanical Engineering or Electrical Engineering, with a possible joint appointment in a related science department.

Strain induced self-assembly provides an attractive route to nanofabrication of semiconductor quantum dots on surfaces. Recent experiments have demonstrated that combining the strain induced self-assembly with surface patterning provides an effective method to further improve the size uniformity and spatial ordering of quantum dots. However, the underlying mechanisms responsible for such improvement remain poorly understood. Recently, we have developped theoretical models to elucidate the strain induced growth instability and island nucleation on patterned substrates.

The LMPM (http://www.lmpm.ensma.fr) seeks candidates for a post-doctoral position in the domain of numerical development applied to the modelling of coupled phenomena. It consists in understanding, modelling and simulating the different couplings (like mechanical, thermal, chemical and diffusion problems) on industrial cases.

The LMPM is a research centre in France which focuses on  durability of material under severe environment (multiphysic coupling).