Springer ThesesReihe

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• STM Investigation of Molecular Architectures of Porphyrinoids on a Ag (111) Surface

  • Florian Buchner

  • 164 Seiten
  • 6 Lesestunden

  The functionalization of surfaces at the nanoscale is a captivating and challenging area of science, essential for developing catalysts, sensors, and solar energy devices. This process hinges on the interaction between an active solid surface and another phase, whether liquid or gas. For instance, planar transition metal complexes adsorbed on solid supports show promise as novel heterogeneous catalysts. A key advantage of these catalysts over supported metal clusters is the well-defined and uniform nature of their active sites, specifically the coordinated metal centers with vacant axial coordination sites. Metalloporphyrinoids are particularly effective in this context, as they feature a rigid molecular frame that promotes long-range order and an active site with a coordinated metal ion. Their planar coordination leaves two axial sites available for additional ligands. When adsorbed on a surface, one axial site is occupied by the substrate, allowing for tailored electronic interactions that modify the metal center's reactivity. The other site remains available for molecule attachment (sensor functionality) or acts as a reaction center (single-site catalysis). Such structures are prevalent in nature, with metallo-tetrapyrrols playing crucial roles in biological processes, exemplified by iron porphyrins in heme, magnesium porphyrins in chlorophyll, and cobalt corrin in vitamin B12.

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• Heteroaromatic Lipoxin A4 Analogues

  Synthesis and Biological Evaluation

  • Colm Duffy

  • 152 Seiten
  • 6 Lesestunden

  Colm Duffy's thesis explores stable lipoxin analogues' chemistry and biology. He synthesized a pyridine-containing LXA4 analogue in enantiomerically pure form and found that both epimers suppress key cytokines in inflammatory diseases, with the (R)-epimer being the most effective. He also developed a thiophene-containing analogue with notable biological activity, inspiring further research.

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• Dijet Angular Distributions in Proton-Proton Collisions

  At s = 7 TeV and s = 14 TeV

  • Nele Boelaert

  • 188 Seiten
  • 7 Lesestunden

  The book explores the innovative application of classical Rutherford scattering experiments to analyze data from the Large Hadron Collider at CERN. It focuses on measuring dijet angular distributions in proton-proton collisions, aiming to uncover new physics and potential substructures within particles. The research highlights the significance of scattering angles in advancing our understanding of fundamental particle interactions.

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• Topics in Theoretical and Computational Nanoscience

  • Jeffrey Michael McMahon

  • 199 Seiten
  • 7 Lesestunden

  3,0(1)Abgeben

  This book examines some of the most fundamental and outstanding questions in nanoscience from a theoretical computational perspective. It features interdisciplinary applications for chemistry, physics, and materials science.

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• Noncovalent functionalization of carbon nanotubes

  Fundamental Aspects of Dispersion and Separation in Water

  • Claudia Backes

  In this thesis, Claudia Backes guides the reader through her multidisciplinary research into the non-covalent functionalization of carbon nanotubes in water. Although one of the most remarkable materials of the 21st century, carbon nanotubes often have limited application because of their intrinsically low solubility and polydispersity. The author shows that rational surfactant design is a powerful tool for chemists because it can unmask the key to solubilization and allow us to tailor nanotube surface and optical properties in a fully reversible fashion. Aspects of organic, physical and analytical chemistry, as well as colloidal sciences are covered in this outstanding work which brings us one step closer to exploiting this super-material to its full potential.

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• Product of random stochastic matrices and distributed averaging

  • Behrouz Touri

  The thesis deals with averaging dynamics in a multiagent networked system, which is a main mechanism for diffusing the information over such networks. It arises in a wide range of applications in engineered physical networks (such as mobile communication and sensor networks), as well as social and economic networks. The thesis provides in depth study of stability and other phenomena characterizing the limiting behavior of both deterministic and random averaging dynamics. By developing new concepts, and using the tools from dynamic system theory and non-negative matrix theory, several novel fundamental results are rigorously developed. These contribute significantly to our understanding of averaging dynamics as well as to non-negative random matrix theory. The exposition, although highly rigorous and technical, is elegant and insightful, and accompanied with numerous illustrative examples, which makes this thesis work easily accessible to those just entering this field and will also be much appreciated by experts in the field.

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• Computational Studies of Transition Metal Nanoalloys

  • Lauro Oliver Paz Borbón

  • 172 Seiten
  • 7 Lesestunden

  Focusing on the computational modeling of transition metal bimetallic nanoalloy clusters, this volume employs global optimization techniques alongside Density Functional Theory (DFT) calculations. It delves into the study of structural characteristics, bonding interactions, and chemical ordering within these clusters, providing insights into their properties and behaviors at the nanoscale.

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• Study of the Inclusive Beauty Production at CMS and Construction and Commissioning of the CMS Pixel Barrel Detector

  • Lea Caminada

  This thesis describes one of the first measurements at the CERN LHC -- the world's largest and highest-energy particle collider. The CMS collision data is analyzed, and results in the first measurement of the inclusive b cross section using semileptonic decays at a center of mass energy of 7 TeV.

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• Building the Cape Verde Islands

  • Ricardo A. S Ramalho

  Hotspots are enigmatic surface features that are not easily explained in the framework of plate tectonics. Investigating their origin is the goal of this thesis, using field evidence collected in the Cape Verde Islands, a prominent hotspot archipelago in the eastern Atlantic Ocean. The approach taken is to document uplift of the islands relative to sea level and use the uplift features to test various models of hotspot development. Island uplift is thought to arise from the growth of the anomalously shallow seafloor on which the islands rest, known as the bathymetric swell, which is characteristic of hotspots. The work comprises a geological summary and detailed mapping of paleo sea level markers on Cape Verde. Isotopic dating of the markers shows that uplift on the islands over the last 6 Myr is up to 400 m, and that the uplift chronology varies among islands. Two processes act to raise the Cape Verde Islands. The dominant process is one that is local to individual islands. The regional, swell-related component is smaller, and possibly episodic. The observations provide strong constraints on swell development and on hotspot models.

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• Phase transitions in two-dimensional complex plasmas

  • Christina Knapek

  The two experimental studies reported in this thesis contribute important new knowledge about phase transitions in two-dimensional complex plasmas: in one case a determination of the coupling parameter (ratio of mean potential to mean kinetic energy of the particles in an ensemble), and in the other a detailed characterization of the non-equilibrium recrystallization of a two-dimensional system. The latter results are used to establish the connection between structural order parameters and the kinetic energy, which in turn gives novel insights into the underlying physical processes determining the two-dimensional phase transition.

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• The Power of Click Chemistry for Molecular Machines and Surface Patterning

  • Jason M. Spruell

  The union of covalent and noncovalent chemistries manifested in the mechanical bond represents one of the great chemical triumphs of the last half century. However, until recently, the preparation of mechanically interlocked compounds has often been an inefficient and limiting process. This thesis provides a detailed account of the great strides taken to increase the synthetic accessibility of donor-acceptor mechanically interlocked molecules by the application of highly efficient and ultra mild chemical transformations during their template-directed synthesis. These new departures in synthesis have indeed played a transformative role in that more complex, higher-order, and functional architectures – once only a dream – are now comfortably within reach. Specifically, the formation of mechanical bonds in higher order rotaxanes and catenanes has become ever easier through the use of highly efficient click chemistries. The resulting mechanically interlocked compounds are functional molecular media for a host of applications including information storage, mechanical actuation, and drug release.

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• How do spores select where to settle?

  A Holographic Motility Analysis of Ulva Zoospores on Different Surfaces

  • Matthias Rudolf Heydt

  In this thesis, Matthias Heydt applies digital in-line holography to achieve for the first time a complete three dimensional and real time motion analysis of Ulva zoospores, both in solution and in the vicinity of different surfaces. These results provide previously unknown information about the behavior and mechanism spores use to select a suitable site for settlement. This work gives deeper insight into biofouling algae and stimulates new design strategies for antifouling coatings. Furthermore, the tracking system developed during this research could be used as a new system for assessing the antifouling performance on different surfaces at very early points in time, allowing disentanglement of surface conditioning and interaction of spores with pristine chemistries.

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• The modelling of radiation damage in metals using Ehrenfest dynamics

  • Christopher Race

  Atomistic simulations of metals under irradiation are indispensable for understanding damage processes at time- and length-scales beyond the reach of experiment. Previously, such simulations have largely ignored the effect of electronic excitations on the atomic dynamics, even though energy exchange between atoms and electrons can have significant effects on the extent and nature of radiation damage. This thesis presents the results of time-dependent tight-binding simulations of radiation damage, in which the evolution of a coupled system of energetic classical ions and quantum mechanical electrons is correctly described. The effects of electronic excitations in collision cascades and ion channeling are explored and a new model is presented, which makes possible the accurate reproduction of non-adiabatic electronic forces in large-scale classical molecular dynamics simulations of metals.

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• Exploring Macroscopic Quantum Mechanics in Optomechanical Devices

  • Haixing Miao

  This book considers various approaches for surpassing the standard quantum limit for force measurements. It then proposes different experimental protocols for using optomechanical interactions to explore quantum behaviors of macroscopic mechanical objects.

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• Multistate GTPase Control Co-translational Protein Targeting

  • Xinyi Yuan

  Proteins act as macromolecular machinery that mediate many diverse biological processes - the molecular mechanisms of this machinery has fascinated biologists for decades. Analysis of the kinetic and thermodynamic features of these mechanisms could reveal unprecedented aspects of how the machinery function and will eventually lead to a novel understanding of various biological processes. This dissertation comprehensively demonstrates how two universally conserved guanosine triphosphatases in the signal recognition particle and its membrane receptor maintain the efficiency and fidelity of the co-translational protein targeting process essential to all cells. A series of quantitative experiments reveal that the highly ordered and coordinated conformational states of the machinery are the key to their regulatory function. This dissertation also offers a mechanistic view of another fascinating system in which multistate protein machinery closely control critical biological processes. Written while completing graduate work at California Institute of Technology.

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• Ultrasonic Coal-Wash for De-Ashing and De-Sulfurization

  Experimental Investigation and Mechanistic Modeling

  • Bhimrao Ramji Ambedkar

  3,6(5)Abgeben

  This study focuses on the physical aspects of ultrasonic de-ashing and de-sulfurization, such as cavitation, streaming and their combined effects. Ambedkar Balraj proposes an ultrasound-assisted coal particle breakage mechanism and explores aqueous and solvent-based ultrasonic techniques for de-ashing and de-sulfurization. Ambedkar designs a Taguchi L-27 fractional-factorial matrix to assess the individual effects of key process variables. In this volume he also describes process optimization and scale-up strategies. The author provides a mechanism-based model for ultrasonic reagent-based coal de-sulfurization, proposes a flow diagram for ultrasonic methods of high-throughput coal-wash and discusses the benefits of ultrasonic coal-wash. Coal will continue to be a major fuel source for the foreseeable future and this study helps improve its use by minimising ash and sulfur impurities.

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• Microseismic Monitoring and Geomechanical Modelling of CO2 Storage in Subsurface Reservoirs

  • James P. Verdon

  • 204 Seiten
  • 8 Lesestunden

  This thesis presents an impressive summary of the potential to use passive seismic methods to monitor the sequestration of anthropogenic CO2 in geologic reservoirs. It brings together innovative research in two distinct areas – seismology and geomechanics – and involves both data analysis and numerical modelling. The data come from the Weyburn-Midale project, which is currently the largest Carbon Capture and Storage (CCS) project in the world. James Verdon’s results show how passive seismic monitoring can be used as an early warning system for fault reactivation and top seal failure, which may lead to the escape of CO2 at the surface.

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• Two Studies in Gas-Phase Ion Spectroscopy. Vacuum-Ultraviolet Negative Photoion Spectroscopy and Ion-Molecule Reaction Kinetics

  • Matthew J. Simpson

  • 176 Seiten
  • 7 Lesestunden

  Matthew Simpson's thesis explores two significant areas of gas ion spectroscopy. The first study identifies negative ions from 24 photoexcited polyatomic molecules using synchrotron radiation, while the second investigates cation and anion reactions with various ethene compounds. His work provides a comprehensive dataset on anion formation, leading to a review and multiple articles.

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• Generic and Specific Roles of Saccharides at Cell and Bacteria Surfaces

  Revealed by Specular and Off-Specular X-Ray and Neutron Scattering

  • Emanuel Schneck

  Systematic investigations of the structure, mechanics, and dynamics of biological surfaces help us understand more about biological processes taking place at cell and bacteria surfaces. Presented here is a study of the role membrane-bound saccharides play in the modulation of interactions between cells/bacteria and their environments. In this thesis, membrane structures were probed perpendicular and parallel to the surface, and sophisticated planar models of biomembranes composed of glycolipids of various structural complexities were designed. Furthermore, specular and off-specular X-ray and neutron scattering experiments were carried out. This research has led to the development of several new methods for extracting information on the structure and mechanics of saccharide-rendered biomembranes from the measured scattering signals. In fact, more is now known about the influence of the saccharide structure. These results demonstrate that the study of planar model systems with X-ray and neutron scattering techniques can provide comprehensive insight into the structure and mechanics of complex biological surfaces.

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• Studying Atomic Dynamics with Coherent X-rays

  • Michael Leitner

  • 108 Seiten
  • 4 Lesestunden

  Focusing on the application of X-ray Photon Correlation Spectroscopy (XPCS), this book explores the study of diffusion in solids at moderate temperatures. It highlights the selection of systems with high diffuse intensity and develops theoretical models to interpret the resulting data, providing valuable insights into the behavior of materials under specific conditions.

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• Late Transition Metal-Carboryne Complexes

  Synthesis, Structure, Bonding, and Reaction with Alkenes and Alkynes

  • Zaozao Qiu

  Zaozao Qiu shows in this thesis that transition metals can mediate or catalyze the cycloaddition or coupling reactions of carboryne with alkynes or alkenes to afford benzocarboranes, alkenylcarboranes or dihydrobenzocarboranes. These results represent powerful strategies to assemble useful complex molecules from very simple precursors in a single operation. Carboranes have many applications in medicine. However, their unique structures make derivatization difficult and the limited efficient synthetic methods to obtain functional carborane materials have restricted applications of carboranes within a narrow scope. This work breaks a new ground in metal-carboryne chemistry and will have a significant impact on synthetic, cluster and materials chemistry.

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• Energetic materials at extreme conditions

  • David I. A. Millar

  The performance of energetic materials (pyrotechnics, propellants and explosives) can depend on a number of factors including sensitivity to detonation, detonation velocity, and chemical and thermal stability.

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• Optical binding phenomena: observations and mechanisms

  • Jonathan M. Taylor

  This thesis addresses optical binding - a new area of interest within the field of optical micromanipulation. It presents, for the first time, a rigorous numerical simulation of some of the key results, along with new experimental findings and also physical interpretations of the results. In an optical trap particles are attracted close to areas of high optical intensities and intensity gradients. So, for example, if two lasers are pointed towards each other (a counter propagating trap) then a single particle is trapped in the centre of the two beams – the system is analogous to a particle being held by two springs in a potential well. If one increases the number of particles in the trap then naively one would expect all the particles to collect in the centre of the well. However, the effect of optical binding means that the presence of one particle affects the distribution of light experienced by another particle, resulting in extremely complex interactions that can lead to unusual 1D and 2D structures to form within the trap. Optical binding is not only of theoretical interest but also has applications in micromanipulation and assembly.

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• Steric effects in the chemisorption of vibrationally excited methane on nickel

  • Bruce L. Yoder

  Bruce Yoder’s thesis outlines his investigation of the dissociative chemisorption of methane (CH 4 ) on a nickel single crystal. In this work Bruce uses a molecular beam and infrared laser techniques to prepare methane in excited rovibrational states. The excited methane molecules are aligned relative to the target nickel surface. Bruce describes the discovery and exploration of a previously unknown steric effect in the dissociation reaction between a vibrationally excited methane molecule and a nickel crystal. From these studies we see that methane molecules are up to twice as reactive when the vibration is aligned parallel rather than perpendicular to the surface. This discovery will help guide the development of detailed predictive models of methane chemisorption, which in turn may lead to better catalysts for the synthesis of several industrially relevant chemicals, including hydrogen fuel from natural gas.

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• Experimental Study of Multiphase Flow in Porous Media during CO2 Geo-Sequestration Processes

  • Ali Saeedi

  There have been numerous computer-based simulation studies carried out on the subject of CO2 geo-sequestration. However, the amount of experimental data available in the literature on this topic, especially with regards to multiphase flow characteristics of fluid-rock systems during such processes, is very limited. This research was carried out with the aim of providing a better understanding of the multiphase fluid flow characteristics of fluid-rock systems during the geo-sequestration process. The ultimate goal of this research was to experimentally evaluate the change in a number of multiphase flow characteristics of the system over time caused by the potential chemical and physical/mechanical processes occurring during deep CO2 disposal. In order to achieve this goal the effects of cyclic/alternating CO2-brine flooding, flow direction, existence of residual hydrocarbon (natural gas) and change in the reservoir stress field on the system’s multiphase flow behaviour were investigated. Until completion of this study there were no experimental data published in the literature addressing the above mentioned issues and the results obtained, and published within this thesis were the first of their kind.

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• On Gauge Fixing Aspects of the Infrared Behavior of Yang-Mills Green Functions

  • Markus Huber

  Quarks are the main constituents of protons and neutrons and hence are important building blocks of all the matter that surrounds us. However, quarks have the intriguing property that they never appear as isolated single particles but only in bound states. This phenomenon is called confinement and has been a central research topic of elementary particle physics for the last few decades. In order to find the mechanism that forbids the existence of free quarks many approaches and ideas are being followed, but by now it has become clear that they are not mutually exclusive but illuminate the problem from different perspectives. Two such confinement scenarios are investigated in this thesis: Firstly, the importance of Abelian field components for the low-energy regime is corroborated, thus supporting the dual superconductor picture of confinement and secondly, the influence of the Gribov horizon on non-perturbative solutions is studied.

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• Active tectonics of the hellenic subduction zone

  • Beth Shaw

  • 169 Seiten
  • 6 Lesestunden

  5,0(1)Abgeben

  This thesis is remarkable for the wide range of the techniques and observations used and for its insights, which cross several disciplines. It begins by solving a famous puzzle of the ancient world, which is what was responsible for the tsunami that destroyed settlements in the eastern Mediterranean in 365 AD. By radiocarbon dating of preserved marine organisms, Shaw demonstrates that the whole of western Crete was lifted out of the sea by up to 10 meters in a massive earthquake at that time, which occured on a previously unknown fault. The author shows that the resulting tsunami would have the characteristics described by ancient writers, and uses modern GPS measurements and coastline geomorphology to show that the strain build-up near Crete requires such a tsunami-earthquake about every 6.000 years - a major insight into Mediterranean tsunami hazard. A detailed seismological study of earthquakes in the Cretan arc over the last 50 years reveals other important features of its behaviour that were previously unknown. Finally, she provides fundamental insights into the limitations of radiocarbon dating marine organisms, relating to how they secrete carbon into their skeletons. The thesis resulted in three major papers in top journals.

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• System Theory in Geomorphology

  • Kirsten von Elverfeldt

  This study in geomorphology regards systems as open but at the same time operationally closed, as self-organized, structure-building and potentially self-referential. Uses state-of-the-art systems theory as a bridge to Human Geography and related studies.

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• The double (3 + 2) photocycloaddition reaction

  • Jason A. Woolford

  Jason Woolford's thesis describes for the first time, a double [3+2] photocycloaddition of alkenes onto aromatic rings. Modern synthetic chemistry relies on the ability of researchers to uncover new and more efficient ways of creating highly complex structures. This work describes a novel, environmentally friendly photochemical step that converts in one pot, trivial starting materials into otherwise difficult to construct fenstrane frameworks. The rigid cores of these frameworks have significant potential in drug design. Moreover, the novelty of this work overtakes many other methods for the creation of chiral centres. No less than seven chiral centres are created in the photochemical step together with the formation of four carbon-carbon bonds and multifused rings. Jason's innovative work has been the subject of several publications in peer-reviewed journals.

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• Control of complex nonlinear systems with delay

  • Philipp Hövel

  This research addresses delay effects in nonlinear systems, which are ubiquitous in various fields of physics, chemistry, biology, engineering, and even in social and economic systems. They may arise as a result of processing times or due to the finite propagation speed of information between the constituents of a complex system. Time delay has two complementary, counterintuitive and almost contradictory facets. On the one hand, delay is able to induce instabilities, bifurcations of periodic and more complicated orbits, multi-stability and chaotic motion. On the other hand, it can suppress instabilities, stabilize unstable stationary or periodic states and may control complex chaotic dynamics. This thesis deals with both aspects, and presents novel fundamental results on the controllability of nonlinear dynamics by time-delayed feedback, as well as applications to lasers, hybrid-mechanical systems, and coupled neural systems.

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• Uncertainties and limitations in simulating tropical cyclones

  • Asuka Suzuki Parker

  The thesis work was in two major parts: development and testing of a new approach to detecting and tracking tropical cyclones in climate models; and application of an extreme value statistical approach to enable assessment of changes in weather extremes from climate models. The tracking algorithm applied a creative phase-space approach to differentiate between modeled tropical cyclones and their mid-latitude cousins. A feature here was the careful attention to sensitivity to choice of selection parameters, which is considerable. The major finding was that the changes over time were relatively insensitive to these details. This new approach will improve and add confidence to future assessments of climate impacts on hurricanes. The extremes approach utilized the Generalized Pareto Distribution (one of the standard approaches to statistics of extremes) applied to present and future hurricane distributions as modeled by a regional climate model, then applied the changes to current observations to extract the changes in the extremes. Since climate models cannot resolve these extremes directly, this provides an excellent method of determining weather extremes in general. This is of considerable societal importance as we are most vulnerable to such extremes and knowledge of their changes enables improved planning and adaptation strategies.

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• Landslide Analysis and Early Warning Systems

  Local and Regional Case Study in the Swabian Alb, Germany

  • Benni Thiebes

  • 260 Seiten
  • 10 Lesestunden

  Recent landslide events demonstrate the need to improve landslide forecasting and early warning capabilities in order to reduce related risks and protect human lives. In this thesis, local and regional investigations were carried out to analyse landslide characteristics in the Swabian Alb region, and to develop prototypic landslide early warning systems. In the local study area, an extensive hydrological and slope movement monitoring system was installed on a seasonally reactivated landslide body located in Lichtenstein- Unterhausen. Monitoring data was analysed to assess the influence of rain ..

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• Measurement of the Top Quark Mass in the Dilepton Final State Using the Matrix Element Method

  • Alexander Grohsjean

  The main pacemakers of scienti?c research are curiosity, ingenuity, and a pinch of persistence. Equipped with these characteristics a young researcher will be s- cessful in pushing scienti?c discoveries. And there is still a lot to discover and to understand. In the course of understanding the origin and structure of matter it is now known that all matter is made up of six types of quarks. Each of these carry a different mass. But neither are the particular mass values understood nor is it known why elementary particles carry mass at all. One could perhaps accept some small generic mass value for every quark, but nature has decided differently. Two quarks are extremely light, three more have a somewhat typical mass value, but one quark is extremely massive. It is the top quark, the heaviest quark and even the heaviest elementary particle that we know, carrying a mass as large as the mass of three iron nuclei. Even though there exists no explanation of why different particle types carry certain masses, the internal consistency of the currently best theory—the standard model of particle physics—yields a relation between the masses of the top quark, the so-called W boson, and the yet unobserved Higgs particle. Therefore, when one assumes validity of the model, it is even possible to take precise measurements of the top quark mass to predict the mass of the Higgs (and potentially other yet unobserved) particles.

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• Lifetime Controlling Defects in Tool Steels

  • Christian Rudolf Sohar

  • 237 Seiten
  • 9 Lesestunden

  In this thesis Christian Sohar describes his investigation into the gigacycle fatigue behavior of tool steels. In an interdisciplinary approach he uses knowledge and methods from a wide variety of disciplines including materials science, metallurgy, chemistry, physics and mechanical engineering. Christian gives a general introduction into steel tools and fatigue in materials. Later he extensively discusses the experimental techniques and results. Indeed it is the detail of the content in this thesis which makes it an invaluable resource for students entering the field and scientists working in related disciplines. Overall, the thesis helps us understand more about the mechanical behavior of metallic materials with complex microstructure and high hardness.

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• The Transient Radio Sky

  • Evan Francis Keane

  • 190 Seiten
  • 7 Lesestunden

  The high time-resolution radio sky represents unexplored astronomical territory. This thesis presents a study of the transient radio sky, focussing on millisecond scales. As such, the work is concerned primarily with neutron stars. In particular this research concentrates on a recently identified group of neutron stars, known as RRATs, which exhibit radio bursts every few minutes to every few hours. After analysing neutron star birthrates, a re-analysis of the Parkes Multibeam Pulsar Survey is described which has resulted in the discovery of 19 new transient radio sources. Of these, 12 have been seen to repeat and a follow-up campaign of observations has been undertaken. These studies have greatly increased our knowledge of the rotational properties of RRATs and enable us to conclude that they are pulsars with extreme nulling and/or pulse-to-pulse modulation. Although the evolution of neutron stars post-supernova is not yet understood, it seems that RRATs fit into the emerging picture in which pulsar magnetospheres switch between stable configurations.

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• Spin Squeezing and Non-linear Atom Interferometry with Bose-Einstein Condensates

  • Christian Groß-Bölting

  Interferometry, the most precise measurement technique known today, exploits the wave-like nature of the atoms or photons in the interferometer. As expected from the laws of quantum mechanics, the granular, particle-like features of the individually independent atoms or photons are responsible for the precision limit, the shot noise limit. However this “classical” bound is not fundamental and it is the aim of quantum metrology to overcome it by employing entanglement among the particles. This work reports on the realization of spin-squeezed states suitable for atom interferometry. Spin squeezing was generated on the basis of motional and spin degrees of freedom, whereby the latter allowed the implementation of a full interferometer with quantum-enhanced precision.

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• Dijet Angular Distributions in Proton-Proton Collisions

  At √s = 7 TeV and √s = 14 TeV

  • Nele Boelaert

  This thesis is based on the first data from the Large Hadron Collider (LHC) at CERN. Its theme can be described as the classical Rutherford scattering experiment adapted to the LHC: measurement of scattering angles to search for new physics and substructure. At the LHC, colliding quarks and gluons exit the proton collisions as collimated particle showers, or jets. The thesis presents studies of the scattering angles of these jets. It includes a phenomenological study at the LHC design energy of 14 TeV, where a model of so-called large extra dimensions is used as a benchmark process for the sensitivity to new physics. The experimental result is the first measurement, made in 2010, by ATLAS, operating at the LHC start-up energy of 7 TeV. The result is compatible with the Standard Model and demonstrates how well the physics and the apparatus are understood. The first data is a tiny fraction of what will be accumulated in the coming years, and this study has set the stage for performing these measurements with confidence as the LHC accumulates luminosity and increases its energy, thereby probing smaller length scales.

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• Formation and Cooperative Behaviour of Protein Complexes on the Cell Membrane

  • Ksenia Guseva

  With the aim of providing a deeper insight into possible mechanisms of biological self-organization, this thesis presents new approaches to describe the process of self-assembly and the impact of spatial organization on the function of membrane proteins, from a statistical physics point of view. It focuses on three important scenarios: the assembly of membrane proteins, the collective response of mechanosensitive channels and the function of the twin arginine translocation (Tat) system. Using methods from equilibrium and non-equilibrium statistical mechanics, general conclusions were drawn that demonstrate the importance of the protein-protein interactions. Namely, in the first part a general aggregation dynamics model is formulated, and used to show that fragmentation crucially affects the efficiency of the self-assembly process of proteins. In the second part, by mapping the membrane-mediated forces into a simplified many-body system, the dynamic and equilibrium behaviour of interacting mechanosensitive channels is derived, showing that protein agglomeration strongly impacts its desired function. The final part develops a model that incorporates both the agglomeration and transport function of the Tat system, thereby providing a comprehensive description of this self-organizing process.

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• High- and low-valent tris-N-heterocyclic carbene iron complexes

  A Study of Molecular and Electronic Structure

  • Carola Stefanie Vogel

  Carola Vogel’s PhD thesis focuses on the synthesis, and structural and spectroscopic characterization of the first high valent iron nitride complexes. In her interdisciplinary and collaborative research Carola also describes the reactivity studies of a unique iron (V) nitride complex with water. These studies show that quantitative yields of ammonia are given at ambient conditions. High valent iron nitride and oxo species have been proposed as key intermediates in many bio-catalytic transformations, but until now these species have proven exceedingly challenging to isolate and study. Iron complexes in high oxidation states can thus serve as models for iron-containing enzymes to help us understand biological systems or aid our development of more efficient industrial catalysts.

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• System Theory in Geomorphology

  Challenges, Epistemological Consequences and Practical Implications

  • Kirsten von Elverfeldt

  • 156 Seiten
  • 6 Lesestunden

  Focusing on geomorphology, this book presents a unique perspective on systems as open yet operationally closed, emphasizing their self-organizing and structure-building capabilities. It integrates cutting-edge systems theory to connect with Human Geography and related disciplines, offering insights into the complex interactions within environmental systems. The exploration of self-referential aspects adds depth to the understanding of geomorphological processes and their implications for human interactions with the landscape.

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• Laser Wakefield Electron Acceleration

  A Novel Approach Employing Supersonic Microjets and Few-Cycle Laser Pulses

  • Karl Schmid

  • 180 Seiten
  • 7 Lesestunden

  The research presented in this book explores innovative designs and applications for particle accelerators, promising to transform the field. It offers groundbreaking findings that will significantly enhance future studies in electron beam acceleration, highlighting its potential impact on advancing scientific research and technology.

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• STM investigation of molecular architectures of porphyrinoids on a Ag(111) surface

  • Florian Buchner

  • 164 Seiten
  • 6 Lesestunden

  The functionalization of surfaces on the nanoscale is a captivating and challenging area of science, essential for developing catalysts, sensors, and devices for solar energy conversion. This process relies on the interaction between an active solid surface and another phase, whether liquid or gaseous. Planar transition metal complexes adsorbed on solid supports are promising candidates for novel heterogeneous catalysts. These catalysts feature well-defined and uniform active sites, specifically the coordinated metal centers with vacant axial coordination sites. Metalloporphyrinoids are particularly advantageous as they combine a rigid molecular frame that promotes long-range order with an active site, the coordinated metal ion. Their planar coordination environment allows for two axial coordination sites for additional ligands. When adsorbed on a surface, one axial site is occupied by the substrate, enabling electronic interactions that can be manipulated to tailor the metal center's electronic structure and reactivity. The remaining site can attach molecules for sensor functionality or serve as a reaction center for single-site catalysis. Numerous prototypes exist in nature, notably metallo-tetrapyrrols, which are crucial in significant biological processes, such as iron porphyrins in heme, magnesium porphyrins in chlorophyll, and cobalt corrin in vitamin B12.

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• Investigating the Nucleation, Growth, and Energy Levels of Organic Semiconductors for High Performance Plastic Electronics

  • Ajay Virkar

  This thesis details the significant progress made in improving the performance of organic transistors and the network conductivity of carbon nanotubes. The first section investigates organic semiconductor nucleation and growth on the most common dielectric surface used to fabricate organic thin film transistors. The nucleation and growth of the semiconductor was determined to be a critical factor affecting the device performance. Excellent dielectric modification layers, which promote desirable semiconductor growth leading to high conductivity were identified, and a technologically relevant deposition technique was developed to fabricate high quality dielectric modification layers over large areas. This may represent an important step towards the realization of large area organic circuity. In the final section, lessons learned from studying organic semiconductor nucleation and growth were utilized to improve the conductivity of carbon nanotube networks. Selective nucleation of materials at the junctions between nanotubes in the network significantly decreased the network's sheet resistance. The resulting networks may be promising candidates for transparent electrodes with a variety of optoelectronic applications.

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• Charm Production in Deep Inelastic Scattering

  Mellin Moments of Heavy Flavor Contributions to F2(x,Q^2) at NNLO

  • Sebastian Klein

  The production of heavy quarks in high-energy experiments offers a rich field to study, both experimentally and theoretically. Due to the additional quark mass, the description of these processes in the framework of perturbative QCD is much more demanding than it is for those involving only massless partons. In the last two decades, a large amount of precision data has been collected by the deep inelastic HERA experiment. In order to make full use of these data, a more precise theoretical description of charm quark production in deep inelastic scattering is needed. This work deals with the first calculation of fixed moments of the NNLO heavy flavor corrections to the proton structure function F2 in the limit of a small charm-quark mass. The correct treatment of these terms will allow not only a more precise analysis of the HERA data, but starting from there also a more precise determination of the parton distribution functions and the strong coupling constant, which is an essential input for LHC physics. The complexity of this calculation requires the application and development of technical and mathematical methods, which are also explained here in detail.

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