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Research activities in our laboratory are focused on the following areas:
Simulation:
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Parallel simulation of rarefied
gas dynamics
in materials processing, vacuum technology, hypersonic flows, microscale and nanoscale gas flows;
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Parallel simulation of plasma physics in materials processing, field emission, plasma backlight source for TFT-LCD and plasma display panel;
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Parallel simulation of the classical molecular dynamics (now) and the quantum molecular dynamics (CPMD) (future) in nanoscale phenomena, materials processing and bio-medical applications;
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Parallel simulation of the Poisson-Boltzmann equation for the electrostatic distribution of the colloidal system (now) and the macromolecular system (future).
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Parallel simulation of the density functional theory (DFT) using FEM for the ground and excited state of atoms and molecules
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Computational electromagnetics using FEM .
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Experiment:
Our final goal is to combine the above developed and validated simulation tools for a truly multiscale simulation in the long run.
Highly motivated students are welcome to join our laboratory. Scholarship for foreign students is available. If interested, please contact Prof. J.-S.
Wu. ( §d©v«H±Ð±Â )
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