Many-body theory of laser-induced ultrafast demagnetization and angular momentum transfer in ferromagnetic transition metals

An electronic theory is developed, which describes the ultrafast demagnetization in itinerant ferromagnets following the absorption of a femtosecond laser pulse. The present work intends to elucidate the microscopic physics of this ultrafast phenomenon by identifying its fundamental mechanisms. In particular, it aims to reveal the nature of the involved spin excitations and angular-momentum transfer between spin and lattice, which are still subjects of intensive debate. In the first preliminary part of the thesis the initial stage of the laser-induced demagnetization process is considered. In this stage the electronic system is highly excited by spin-conserving elementary excitations involved in the laser-pulse absorption, while the spin or magnon degrees of freedom remain very weakly excited. The role of electron-hole excitations on the stability of the magnetic order of one- and two-dimensional 3d transition metals (TMs) is investigated by using ab initio density-functional theory. The results show that the local magnetic moments are remarkably stable even at very high levels of local energy density and, therefore, indicate that these moments preserve their identity throughout the entire demagnetization process. In the second main part of the thesis a many-body theory is proposed, which takes into account these local magnetic moments and the local character of the involved spin excitations such as spin fluctuations from the very beginning. In this approach the relevant valence 3d and 4p electrons are described in terms of a multiband model Hamiltonian which includes Coulomb interactions, interatomic hybridizations, spin-orbit interactions, as well as the coupling to the time-dependent laser field on the same footing. An exact numerical time evolution is performed for small ferromagnetic TM clusters. The dynamical simulations show that after ultra-short laser pulse absorption the magnetization of these clusters decreases on a time scale of hundred femtoseconds. In particular, the results reproduce the experimentally observed laser-induced demagnetization in ferromagnets and demonstrate that this effect can be explained in terms of the following purely electronic non-adiabatic mechanism: First, on a time scale of 10–100 fs after laser excitation the spin-orbit coupling yields local angular-momentum transfer between the spins and the electron orbits, while subsequently the orbital angular momentum is very rapidly quenched in the lattice on the time scale of one femtosecond due to interatomic electron hoppings. In combination, these two processes result in a demagnetization within hundred or a few hundred femtoseconds after laser-pulse absorption.

Herd management and livestock productivity in the Altai region of Western Mongolia

This thesis analyses the influence of qualitative and quantitative herbage production on seasonal rangelands, and of herd and pasture use strategies on feed intake, body mass development and reproductive performance of sheep and goats in the Altai mountain region of Bulgan county (soum) in Khovd province (aimag). This westernmost county of Mongolia is characterized by a very poor road network and thus very difficult access to regional and national markets. The thesis explores in this localized context the current rural development, the economic settings and political measures that affect the traditional extensive livestock husbandry system and its importance for rural livelihoods. Livestock management practices still follow the traditional transhumant mode, fully relying on natural pasture. This renders animal feeding very vulnerable to the highly variable climatic conditions which is one of many reasons for gradually declining quantity and quality of pasture vegetation. Small ruminants, and especially goats, are the main important species securing economic viability of their owners’ livelihood, and they are well adapted to the harsh continental climate and the present low input management practices. It is likely that small ruminants will keep their vital role for the rural community in the future, since the weak local infrastructure and slow market developments currently do not allow many income diversification options. Since the profitability of a single animal is low, animal numbers tend to increase, whereas herd management does not change. Possibilities to improve the current livestock management and thus herders’ livelihoods in an environmentally, economically and socially sustainable manner are simulated through bio-economic modelling and the implications are discussed at the regional and national scale. To increase the welfare of the local population, a substantial infrastructural and market development is needed, which needs to be accompanied by suitable pasture management schemes and policies

A computer-algebraic approach to the study of the symmetry properties of molecules and clusters

This thesis work is dedicated to use the computer-algebraic approach for dealing with the group symmetries and studying the symmetry properties of molecules and clusters. The Maple package Bethe, created to extract and manipulate the group-theoretical data and to simplify some of the symmetry applications, is introduced. First of all the advantages of using Bethe to generate the group theoretical data are demonstrated. In the current version, the data of 72 frequently applied point groups can be used, together with the data for all of the corresponding double groups. The emphasize of this work is placed to the applications of this package in physics of molecules and clusters. Apart from the analysis of the spectral activity of molecules with point-group symmetry, it is demonstrated how Bethe can be used to understand the field splitting in crystals or to construct the corresponding wave functions. Several examples are worked out to display (some of) the present features of the Bethe program. While we cannot show all the details explicitly, these examples certainly demonstrate the great potential in applying computer algebraic techniques to study the symmetry properties of molecules and clusters. A special attention is placed in this thesis work on the flexibility of the Bethe package, which makes it possible to implement another applications of symmetry. This implementation is very reasonable, because some of the most complicated steps of the possible future applications are already realized within the Bethe. For instance, the vibrational coordinates in terms of the internal displacement vectors for the Wilson's method and the same coordinates in terms of cartesian displacement vectors as well as the Clebsch-Gordan coefficients for the Jahn-Teller problem are generated in the present version of the program. For the Jahn-Teller problem, moreover, use of the computer-algebraic tool seems to be even inevitable, because this problem demands an analytical access to the adiabatic potential and, therefore, can not be realized by the numerical algorithm. However, the ability of the Bethe package is not exhausted by applications, mentioned in this thesis work. There are various directions in which the Bethe program could be developed in the future. Apart from (i) studying of the magnetic properties of materials and (ii) optical transitions, interest can be pointed out for (iii) the vibronic spectroscopy, and many others. Implementation of these applications into the package can make Bethe a much more powerful tool.

Femtosecond dynamics of molecules and clusters

The real-time dynamics of multiphoton ionization and fragmentation of molecules - Na_2 , Na_3 - and clusters - Na_n, Hg_n - has been studied in molecular beam experiments employing ion and electron spectroscopy together with femtosecond pump-probe techniques. Experiments with Na_2 and Na_3 reveal unexpected features of the dynamics of the absorption of several photons as seen in the one- and three dimensional vibrational wave packet motion in different potential surfaces and in high laser fields. Cluster size dependent studies of physical properties such as absorption resonances, lifetimes and decay channels have been performed using tunable femtosecond light pulses in resonance enhanced multiphoton ionization (REMPI) of the cluster size under investigation. This method failed in ns-laser experiments due to the ultrafast decay of the studied cluster. For Na_n, cluster we find that for cluster sizes n \le 21 molecular excitations and properties prevail over collective excitations of plasmon-like resonances. In the case of Hg_n cluster prompt formation of singly and doubly charged cluster are observed up to n \approx 60. The transient multiphoton ionization spectra show a 'short' time wave packet dynamics, which is identical for singly and doubly charged mercury clusters while the 'long' time fragmentation dynamics is different.

Untersuchungen zur Biofilmbildung bei dem klinischen Isolat Enterococcus faecalis 1.10

In der vorliegenden Arbeit wurde die Biofilmbildung bei einem klinischen Isolat von Enterococcus faecalis untersucht. Der Prozess der Biofilmbildung ist in mehrere Abschnitte unterteilt und beinhaltet zu Beginn eine Anhaftung von Zellen an Oberflächen. Dieser adhäsive Schritt wird unter anderem durch Pili vermittelt. Pili bei Grampositiven Mikroorganismen sind kovalent mit der Zellwand verknüpfte Proteinstrukturen, die eine Anheftung an biotische und abiotische Oberflächen sowie den Zell-Zell-Kontakt vermitteln. Bei den Analysen dieser Doktorarbeit lag ein besonderes Interesse bei eben diesen Pili, die für Enterococcus faecalis die Namen Ebp (endocarditis and biofilm associated pili) und Bee (biofilm enhancer in enterococci) tragen. Codiert werden sie durch die entsprechenden ebp-/bee-Loci, deren Aufbau unter den Grampositiven Mikroorganismen hochkonserviert ist. Die Loci bestehen aus Pilusuntereinheiten-codierenden Genen und colokalisierten Pilus-spezifischen Sortase Genen. Während in der Regel drei verschiedene Pilusuntereinheiten vorliegen, kann die Anzahl der Sortasen zwischen einer und zwei variieren. Bei den Experimenten wurde neben einer Komplementationsstudie zu einer Bee-Pilus Defekt-Mutante (1.10.16) das Hauptaugenmerk auf die Analyse des zweiten Pilus (Ebp) gelegt, um die Pilisituation bei Isolat 1.10 im Detail darzustellen Zusätzlich sollten weitere Oberflächenassoziierte Proteinstrukturen bei Isolat 1.10 detektiert werden, die gegebenenfalls an der Biofilmbildung beteiligt sind. Weitere Versuche zur Charakterisierung des Bee-Pilus wurden im Laufe dieser Arbeit durchgeführt, blieben jedoch bisher erfolglos. Die Biofilm-/Pilus-Defekt-Mutante 1.10.16 zeigte aufgrund einer Punktmutation (Pm) in der Pilus-spezifischen Sortase 1 des bee-Locus eine geschwächte Fähigkeit zur Anheftung an abiotische Oberflächen, sowie das Fehlen der Bee2 Untereinheit im Pilus. Nach Komplementation der Mutante (1.10.16K) mit dem Wildtyp-srt1 Gen, wurde die starke Biofilmbildungsfähigkeit zurück erlangt. Die Experimente zeigten, dass der Pilus-Defekt auf die Pm im srt1 Gen zurückzuführen war und der Bee-Pilus in Stamm 1.10.16K wieder korrekt gebildet wurde. Zu sehen war dies in Rasterelektronenmikroskopischen Aufnahmen und ebenfalls im massenspektrometrischen Nachweis aller 3 Pilusuntereinheiten im Bee-Pilus charakteristischen High-Molecular-Weight Komplex (~ 250 kDa). Durch Sequenzierungen konnte gezeigt werden, dass zwei Gene des ebp-Locus (ebpR und ebpC) bei Isolat 1.10 durch die Insertion von IS-Elementen IS1062 und IS6770 inaktiviert wurden. Der proteinbiochemische Nachweis über Pilusspezifische Antikörper gegen die Untereinheiten des Ebp-Pilus verlief negativ. Zusätzlich konnte gezeigt werden, dass die mRNA der beiden inaktivierten Gene nicht gebildet wurde. Dies führte folglich zum vollständigen Verlust des Ebp-Pilus bei Isolat 1.10. Zusammen mit den Ergebnissen der Komplementation konnte somit der große Einfluss mindestens eines intakten Pilus auf die Biofilmbildung gezeigt werden. Sind beide Pili durch Insertionen bzw. Mutationen inaktiviert, kommt es zu einer deutlichen Abnahme der Biofilmbildungsstärke. Dass trotzdem noch ein Biofilm gebildet wurde, zeigt den multifaktoriellen Zusammenhang bzw. Einfluss im Biofilmbildungsprozess. Über das gezielte Markieren von Oberflächenproteinen intakter Zellen mittels der Oberflächenbiotinylierung, konnten in der SDS-PAGE Unterschiede im Bandenmuster im Vergleich zur unbehandelten Probe erkannt werden. Die massenspektrometrische Identifikation dieser Proteine erfolgte bisher nicht, jedoch sind diese vorläufigen Ergebnisse vielversprechender Natur für die Identifikation und Aufklärung der Oberflächenproteinsituation bei Isolat 1.10.

Magnetic interactions between transition metal impurities and clusters mediated by low-dimensional metallic hosts: A first principles theoretical investigation

The magnetic properties and interactions between transition metal (TM) impurities and clusters in low-dimensional metallic hosts are studied using a first principles theoretical method. In the first part of this work, the effect of magnetic order in 3d-5d systems is addressed from the perspective of its influence on the enhancement of the magnetic anisotropy energy (MAE). In the second part, the possibility of using external electric fields (EFs) to control the magnetic properties and interactions between nanoparticles deposited at noble metal surfaces is investigated. The influence of 3d composition and magnetic order on the spin polarization of the substrate and its consequences on the MAE are analyzed for the case of 3d impurities in one- and two-dimensional polarizable hosts. It is shown that the MAE and easy- axis of monoatomic free standing 3d-Pt wires is mainly determined by the atomic spin-orbit (SO) coupling contributions. The competition between ferromagnetic (FM) and antiferromagnetic (AF) order in FePtn wires is studied in detail for n=1-4 as a function of the relative position between Fe atoms. Our results show an oscillatory behavior of the magnetic polarization of Pt atoms as a function of their distance from the magnetic impurities, which can be correlated to a long-ranged magnetic coupling of the Fe atoms. Exceptionally large variations of the induced spin and orbital moments at the Pt atoms are found as a function of concentration and magnetic order. Along with a violation of the third Hund’s rule at the Fe sites, these variations result in a non trivial behavior of the MAE. In the case of TM impurities and dimers at the Cu(111), the effects of surface charging and applied EFs on the magnetic properties and substrate-mediated magnetic interactions have been investigated. The modifications of the surface electronic structure, impurity local moments and magnetic exchange coupling as a result of the EF-induced metallic screening and charge rearrangements are analysed. In a first study, the properties of surface substitutional Co and Fe impurities are investigated as a function of the external charge per surface atom q. At large inter-impurity distances the effective magnetic exchange coupling ∆E between impurities shows RKKY-like oscillations as a function of the distance which are not significantly affected by the considered values of q. For distances r < 10 Å, important modifications in the magnitude of ∆E, involving changes from FM to AF coupling, are found depending non-monotonously on the value and polarity of q. The interaction energies are analysed from a local perspective. In a second study, the interplay between external EF effects, internal magnetic order and substrate-mediated magnetic coupling has been investigated for Mn dimers on Cu(111). Our calculations show that EF (∼ 1eV/Å) can induce a switching from AF to FM ground-state magnetic order within single Mn dimers. The relative coupling between a pair of dimers also shows RKKY-like oscillations as a function of the inter-dimer distance. Their effective magnetic exchange interaction is found to depend significantly on the magnetic order within the Mn dimers and on their relative orientation on the surface. The dependence of the substrate-mediated interaction on the magnetic state of the dimers is qualitatively explained in terms of the differences in the scattering of surface electrons. At short inter-dimer distances, the ground-state configuration is determined by an interplay between exchange interactions and EF effects. These results demonstrate that external surface charging and applied EFs offer remarkable possibilities of manipulating the sign and strength of the magnetic coupling of surface supported nanoparticles.