Atomistic simulation is the theoretical and computational modelling of what happens at the atomic scale in solids, liquids, molecules and plasmas. Often this means solving numerically the classical or quantum-mechanical equations for the motion of interacting atoms, or even deeper – of the constituent electrons and nuclei. Our area employs two fundamental tools – theoretical approaches and computational packages based on the theory. In our group we develop both. Statistical physics, molecular dynamics, (time-dependent) quantum mechanics, (time-dependent) tight binding, (TD)DFT, and quantum many-body theory are instrumental in our work. See our Research themes for examples.
Curl maps in nanowires - 05 Aug 2020
Congratulations to Chris McCooey, whose paper, Curl maps in nanowires, has just been accepted in Physical Review B.Read More...
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