Moseler, M.M.Moseler2022-03-102022-03-102004https://publica.fraunhofer.de/handle/publica/345087The electronic and geometric structure of free and supported clusters are studied within an ab inito framework by solving the Kohn-Sham equations of density functional theory (DFT) for the electrons and Newtons equation of motion for the atoms. An efficient and accurate numerical parallel implementation of the Kohn-Sham solver using a plane wave representation for the kinetic energy calculations and a real space grid for the potential energy evaluations permits structural minimisation as well as first principle molecular dynamics simulations of clusters with up to 20 atoms. An additional code for linear response calculations based on time-dependent DFT has been developed and applied to the optical response of clusters. In this paper, we report on thermal broadening mechanisms in the optical and photoelectron spectra of sodium clusters, relativistic effects in coinage metal clusters and on softlanding of Pd nanoclusters on MgO(001).endensity functional theoryClusteroptical responserelativistic effectsupported cluster531620conference paper