67 research outputs found
Electronic structure, magnetic ordering and phonons in molecules and solids
The present work gives an overview of the authors work in the field of electronic structure calculations. The main objective is to show how electronic structure methods in particular density functional theory (DFT) can be used for the description and interpretation of experimental results in order to enhance our understanding of physical and chemical properties of materials. The recently found superconductor MgB2 is an example where the electronic structure was the key to our understanding of the surprising properties of this material. The experimental confirmation of the predicted electronic structure from first principles calculations was very important for the acceptance of earlier theoretical suggestions. Molecular crystals build from magnetic clusters containing a few transition metal ions and organic ligands show fascinating magnetic properties at the nanoscale. DFT allows for the investigation of magnetic ordering and magnetic anisotropy energies. The magnetic anisotropy which results mainly from the spin-orbit coupling determines many of the properties which make the single molecule magnets interesting
Ab initio Simulations of Fe-based Ferric Wheels
Based on first-principles density-functional theory calculations we
investigate the electronic structure of hexanuclear "ferric wheels" M
Fe_6[N(CH_2 CH_2 O)_3]_6 Cl (M = Li, Na) in their antiferromagnetic ground
state. The electronic structure is presented in form of spin- and site-resolved
local densities of states. The latter clearly indicate that the magnetic moment
is distributed over several sites. The local moment at the iron site is still
the largest one with about 4 mu_B, thus indicating the valence state of iron to
be closer to Fe(II) than to commonly accepted Fe(III). The local spin of S=5/2
per iron site, following from magnetization measurements, is perfectly
reproduced if one takes the moments on the neighbor atoms into account. The
largest magnetic polarization is found on the apical oxygen atom, followed by
nitrogen bridging oxygens. These findings are confirmed by a map of spatial
spin density. A further goal of the present study has been a comparative test
of two different DFT implementations, Siesta and NRLMOL. They yield a very good
agreement down to small details in the electronic structure.Comment: 10 pages, 3 embedded postscript figures, to be published in Molecular
Physics Reports (proceedings of the Summer School on New Magnetics - Bedlewo,
Poland, September 2003). Two references update
Wavevector-dependent optical properties from wavevector-independent proper conductivity tensor
We discuss the calculation of the refractive index by means of the ab initio
scalar dielectric function and point out its inherent limitations. To overcome
these, we start from the recently proposed fundamental, microscopic wave
equation in materials in terms of the frequency- and wavevector-dependent
dielectric tensor, and investigate under which conditions the standard
treatment can be justified. Thereby, we address the question of neglecting the
wavelength dependence of microscopic response functions. Furthermore, we
analyze in how far the fundamental, microscopic wave equation is equivalent to
the standard wave equation used in theoretical optics. In particular, we
clarify the relation of the "effective" dielectric tensor used there to the
microscopic dielectric tensor defined in ab initio physics.Comment: consistent with published version in Eur. Phys. J. B (2020
Electronic-structure-based investigation of magnetism in the Fe8 molecular magnet
We have performed density-functional-based electronic structure calculations on a single Fe8 molecular nanomagnet. Our calculated total moments and local moments are in excellent agreement with experiment. By including spin–orbit coupling we determine the easy, medium, and hard axes and find the ordering of the principle axes also agrees with experiment. From our calculated anisotropy Hamiltonian, we calculate the oscillations in the tunnel splittings and compare to the experimental results
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