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Minima Hopping Method: Structure prediction of nano-systems. Multiscale simulation of Kelvin probe force microscopy.

Seminar Monday, 14/03/2011 14:00 - 15:30

Speakers: Ali Sadeghi (Physics Department, Swiss Nanoscience Institute, University of Basel)
Place: Cukrovarnická, seminar room, building A, 1st floor
Presented in English
Organisers: Department of Thin Films and Nanostructures

Part 1: Minima Hopping Method: Structure prediction of nano-systems.

The global minimum of the potential energy surface (PES) determines the ground state configuration of any condensed matter system. In a global geometry optimization one faces the difficulty that the number of local minima increases exponentially with the system size. Minima Hopping is a powerful and unbiased global geometry optimization method with the advantage of efficiently avoiding search over unnecessary regions of the potential energy landscape thanks to being based on fundamental physical principles. The algorithm and some results on different nano-systems including clusters, nanostructures and biomolecules will be presented.

Part 2: Multiscale simulation of Kelvin probe force microscopy.

The distance dependence and atomic-scale contrast in Kelvin signals recently observed with nc-AFM on conducting, as well as on insulating samples has stimulated theoretical attempts to explain these effects. We attack the problem in two steps: 1) The macroscopic electrostatic potential and the capacitance between the tip+cantilever system and the thick insulating sample are determined; 2) The microscopic site-dependent electrostatic force are performed within the wavelet-based BigDFT code. The local contact potential difference is then defined considering the both contributions.

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