Global ETD Search

141	Spin Manipulation of the Nitrogen Vacancy Center and its Applications Staacke, Robert 10 August 2021 (has links) Das Stickstoff-Fehlstellen-Zentrum (NV-Zentrum) in Diamant ist eines der vielver- sprechendsten Spinsysteme für Anwendungen im Bereich Quanten-Computing, -Information und -Sensorik. Die Abhängigkeit der Fluoreszenzintensität vom Spinzu- stand ermöglicht dabei das rein optische Auslesen des Spinzustandes. Für alle Anwendungen, die auf aktive Spinmanipulation angewiesen sind, ist Mikrowellen- strahlung unverzichtbar. Die Fähigkeit, den Spinzustand von NV-Zentren vollständig zu kontrollieren, wird durch die Richtung, Intensität und Polarisation der Mikrow- ellenstrahlung deﬁniert. Es gibt verschiedene Ansätze, um geeignete Mikrowellen- strahlung zu erzeugen, aber oft ist die Feldintensität zu gering oder es gibt andere Einschränkungen, z.B. eine geringe Frequenzbandbreite. Im ersten Teil meiner Arbeit untersuche ich transparente Leiter auf Basis von Indium- Zinn-Oxid (ITO), um die Mikrowellenansteuerung von NV-Zentren zu optimieren. Dabei wird eine detaillierte Analyse von ITO auf Diamant bezüglich einzelner NV-Zentren vorgestellt. Ein mathematisches Modell wurde entwickelt, um die Feldverteilung vorherzusagen. Zusätzlich wird eine Methode zur Kontrolle der Mikrowellenpolarisation mit einer transparenten ITO-Struktur vorgestellt, die zu einer vollständigen Kontrolle des Spinzustands des NV-Zentrums führt. Weiterhin werden Simulationen in Kombination mit einem analytischen Modell verwendet, um optimale Mikrowellenparameter für die Spinkontrolle vorherzusagen. Für eine kommerzielle Anwendung von NV-Zentren als Magnetfeldsensor sind Pro- duktionskosten und Bauteilkomplexität wichtige Faktoren, die in der Forschung oft vernachlässigt werden. Der zweite Teil meiner Arbeit konzentriert sich da- her auf einen mikrowellenfreien Ansatz zur Magnetometrie mit NV-Zentren. Der Einﬂuss der Laseranregung auf den magnetischen Kontrast wird an einzelnen NV- Zentren, Ensembles von NV-Zentren und Nano-Diamantpulver mit einer hohen NV- Zentrenkonzentration dargestellt und nachfolgend zur Demonstration von isotropen Magnetfeldmessung verwendet. Abschließend wird die Anwendbarkeit durch die Konstruktion eines Magnetfeldsensors aus Komponenten der Automobilbranche gezeigt. / The nitrogen vacancy center (NV center) in diamond is one of the most promising spin systems for applications in quantum computing, information and sensing. The dependency of the ﬂuorescence intensity on the spin state allows a purely optical readout of the spin state. A green laser can be used to pump the NV center in the spin ground state while microwave radiation can manipulate the spin state of the NV center. For all applications depending on active spin manipulation, microwave radiation is indispensable. The ability to fully control the spin state of NV centers is deﬁned by direction, strength and polarization of the microwave radiation. Different approaches exist to deliver the microwave radiation, but they often lack in strength or have other restrictions, e.g. a small frequency band width. In the ﬁrst part of my thesis, I investigate transparent conductors based on indium tin oxide (ITO) to optimize microwave delivery. In this process a detailed analysis of ITO on diamond concerning confocal microscopy through this transparent ﬁlm is presented. A mathematical model was developed and tested to predict the ﬁeld distribution in possible applications. Additionally a method to control microwave polarization with a transparent ITO structure is shown which results in full spin state control of the NV center. Furthermore simulations combined with a analytical model are used to predict optimal microwave parameters for spin control. For a commercial application of NV centers as a magnetic ﬁeld sensor, important factors are production cost and device complexity which are often neglected in research. The second part of my thesis therefore focuses on a microwave free approach of NV center magnetometry for industry applications. The inﬂuence of laser excitation on magnetic contrast was studied on single NV centers, ensembles of NV centers and nano diamond powder with a high NV center concentration. The ﬁndings were used to demonstrate isotropic magnetic ﬁeld sensing. Finally, the applicability was shown by constructing a magnetic ﬁeld sensor from automotive grade components. info:eu-repo/classification/ddc/530 ddc:530
142	Novel Concepts for Organic Transistors: Physics, Device Design, and Applications Kleemann, Hans 27 October 2021 (has links) In the first wave of commercialization of organic electronics, about ten years ago, active-matrix organic light-emitting diode (AMOLED) displays became the first large-scale industrial application of organic electronic devices. The victory continues and AMOLED displays attain an ever-increasing market share in the global display industry. In the second wave, organic solar cells are about to enter the mass-production stage, and the possibility for low-cost production on flexible substrates will revolutionize the solar in-dustry. The third wave will be the implementation of organic thin-film transistors for truly flexible, printed, large-area circuits. However, there is a multitude of challenges with regard to device physics, material, and process engineering which need to be overcome to make organic thin-film transistors fit for the step into industrial fabrication. The focus of this thesis is at organic thin-film transistors, covering the whole spectrum of device physics, design principles, and the exploration of new applications. In particular, charge carrier transport and injection in vertical organic transistors with ultra-short channel length are investigated in order to derive device architectures suitable for high and ultra-high frequency operation. Self-heating and a strongly thermally activated charge carrier transport at high current densities are identified as the limiting factors for high-frequency operation on low thermal conductivity, flexible substrates. Besides fundamental questions on charge carrier transport, this thesis also addresses questions related to the device fabrication. In particular, new fabrication methods for vertical organic transistors are proposed enabling reliable and stable device operation and integration of ultra-short channel length devices without using costly high-resolution patterning techniques. Beyond conventional organic thin-film transistors, this thesis explores possible paths for the fourth wave of organic electronics. In this context, mixed ionic-electronic conductors and organic electro-chemical transistors (OECTs) are identified as highly promising approaches for electronic bio-interfaces enabling ultra-sensitive detection of biological signals. Furthermore, these systems show fundamental properties of biological synapses, namely the synaptic plasticity, which renders the possibility to build brain-inspired, neuromorphic networks enabling highly efficient computing. In particular, the combination of OECTs acting as sensor units and self-learning neural networks at once enables the development of intelligent tags for medical applications. Overall, this thesis adds substantially new insight into the field of organic electronics and draws a vision towards further research and applications. The advancements in the field of vertical organic transistors open new perspectives for the implementation of organic transistors in high-resolution AMOLED displays or radio-frequency identification tags. Furthermore, the exploration of OECTs for neuromorphic computing will create a whole new research field across the disciplines of physics, material, and computer science. info:eu-repo/classification/ddc/530 ddc:530
143	Local atomic structure of kesterite type materials Ritter, Konrad 08 November 2021 (has links) Kesterite sind Verbindungshalbleiter aus ungiftigen und vergleichsweise häufigen Elementen, die als Absorber in Dünnschichtsolarzellen genutzt werden können. Häufig wird ihre Zusammensetzung durch Variation der Stöchiometrie oder Legierung verändert, um ihre Effizienz marktfähig zu machen. Die langreichweitigen, strukturellen Einflüsse dieser Methoden sind wohl bekannt. Erkenntnisse aus den ähnlichen Chalcopyriten legen jedoch nahe, dass die lokale atomare Struktur sich nicht im gleichen Maße ändert. In der vorliegenden Arbeit wurde daher Extended X-ray Absorption Fine Structure spectroscopy (EXAFS) verwendet, um Veränderungen in der lokalen Struktur von nicht stöchiometrischen oder legierten Pulverproben und Dünnschichten auf winzigen Skalen zu analysieren. Es zeigt sich, dass Kesterite viele Eigenschaften ihrer lokalen Struktur auch über signifikante Zusammensetzungsveränderungen hinaus beibehalten. Trotzdem wird die Wichtigkeit dieser Untersuchungen deutlich. So kann unter anderem der direkte Einfluss der lokalen Struktur auf die Bandlücke gezeigt werden. / Kesterite type materials are researched for their ability to form thin film solar cell absorbers from earth abundant and non-toxic elements. Main routes to increase their efficiencies to the level of competing materials include compositional variations such as deviations from stoichiometry and alloying. While the long range structural impacts of these methods are well known, similarities with chalcopyrites indicate that the local atomic structure will not change on the same order of magnitude. This thesis hence employs low temperature Extended X-ray Absorption Fine Structure spectroscopy (EXAFS) measurements on off-stoichiometric or alloyed powder samples and thin films, to reveal the small changes in local atomic environments. It is shown that kesterites tend to keep many aspects of their local atomic structure despite major compositional changes. Yet, both the impact of these small changes on band gap energy as well as further value of probing the local atomic structure of kesterite thin films are demonstrated. kesterite, EXAFS, local atomic structure info:eu-repo/classification/ddc/530 ddc:530
144	On the Properties of Self-Thermophoretic Janus Particles: From Hot Brownian Motion to Motility Landscapes Auschra, Sven 08 November 2021 (has links) This thesis investigates several phenomena that are associated with (self-)thermophoretic Janus particles with hemispheres made from different materials serving as a paradigm for active propul- sion on the microscale. (i) The dynamics of a single Janus sphere in the external temperature field created by an immobilized heat source is studied. I show that the particle’s angular velocity is solely determined by the temperature profile on the equator between the Janus particle’s hemispheres and their phoretic mobility contrast. (ii) The distinct polarization-density patterns observed for active-particle suspensions in activity landscapes are addressed. The results of my approximate theoretical model agree well with exact numerical and measurement data for a thermophoretic microswimmer, and can serve as a template for more complex applications. The essential physics behind the formal results is robustly captured and elucidated by a schematic two-species “run- and-tumble” model. (iii) I investigate coarse-grained models of suspended self-thermo- phoretic microswimmers. Starting from atomistic molecular dynamics simulations, the coarse-grained de- scription of the fluid in terms of a local molecular temperature field is verified, and effective nonequilibrium temperatures characterizing the particle’s so called hot Brownian motion are mea- sured from simulations. They are theoretically shown to remain relevant for any further spatial coarse-graining towards a hydrodynamic description of the entire suspension as a homogeneous complex fluid. / In dieser Arbeit untersuche ich mehrere Phänomene, die im Zusammenhang mit (selbst-)thermo- phoretischen Janusteilchen auftreten. Diese Teilchen bestehen aus zwei Halbkugeln mit unter- schiedlichen Materialeigenschaften und dienen in dieser Arbeit als Musterbeispiel für aktive Fort- bewegung auf der Mikroskala. (i) Die Dynamik eines einzelnen Janusteilchens im externen Temper- aturfeld einer ortsfesten Heizquelle wird untersucht. Es wird gezeigt, dass die Winkelgeschwindigkeit des Teilchens ausschließlich durch das Temperaturprofil am Äquator zwischen den Hemisphären des Janusteilchens und dem Unterschied ihrer phoretischen Mobilitäten bestimmt wird. (ii) Ich befasse mich mit den charakteristischen Polarisations- und Dichteprofilen, die für aktive Teilchen in Aktivitätslandschaften beobachtet werden. Die Ergebnisse meines approximativen theoretis- chen Modells stimmen gut mit exakten numerischen Lösungen und Messdaten für einen ther- mophoretischen Mikroschwimmer überein und können als Vorlage für komplexere Anwendungen dienen. Die wesentliche Physik hinter den formalen Ergebnissen wird durch ein schematisches Zwei-Spezies-“Run-and-Tumble”-Modell erfasst und erklärt. (iii) Ich untersuche Coarse-Graining- Modelle von suspendierten selbst-thermophoretischen Mikroschwimmern. Ausgehend von atom- istischen molekulardynamischen Simulationen wird die grobkörnige (coarse-grained) Beschreibung des Fluids in Form eines lokalen molekularen Temperaturfeldes verifiziert. Anschließend berechne ich effektive Nichtgleichgewichtstemperaturen, die die sogenannte heiße Brownsche Bewegung der Teilchen charakterisieren, und vergleiche diese mit Simulationsdaten. Es wird gezeigt, dass diese effektiven Temperaturen für jede weitere räumliche Vergröberung hin zu einer hydrodynamischen Beschreibung der gesamten Suspension als homogenes komplexes Fluid relevant bleiben. info:eu-repo/classification/ddc/530 ddc:530
145	Carbon Molecular Sieves – a kinetic study Möller, Andreas, Guderian, Joachim, Lange, Marcus, Möllmer, Jens January 2013 (has links) No description available. info:eu-repo/classification/ddc/530 ddc:530 Diffusion, Transport diffusion, transport
146	Quantitative recovery ordered (Q-ROSY) and diffusion: ordered spectroscopy using the spoiler recovery: approach Anthonsen, Henrik Walbye, Sørland, Geir Humborstad Sørland, Zick, Klaus, Sjöblom, Johan, Simon, Sébastien January 2012 (has links) Combined PFG and T1 methods for rapid acquisition of multiple scans of an NMR pulse sequence are presented. The methods apply initially two RF-pulses in combination with two magnetic field gradient pulses of opposite polarity, different strengths and different durations. The basic idea is to spoil any magnetization in any direction before letting the system recover to some degree of restoration of the thermal equilibrium magnetization. Thereafter any pulse sequence can be applied, and the next scan may be run immediately after the end of this spoiler pulse sequence. Thus one avoids the 5 times T1 delay between each scan. The method has been verified at 11.7 Tesla correlating spectral information with T1 or diffusion. info:eu-repo/classification/ddc/530 ddc:530 Diffusion, Transport diffusion, transport
147	Complex transport in strongly disordered materials Franosch, Thomas January 2011 (has links) No description available. info:eu-repo/classification/ddc/530 ddc:530 Diffusion, Transport diffusion, transport
148	Anodic alumina-mesoporous silica hybrid membranes: a systematic study of alumina filling Meoto, Silo, Coppens, Marc-Olivier January 2011 (has links) No description available. info:eu-repo/classification/ddc/530 ddc:530 Diffusion, Transport difusion, transport
149	On the Retrieval of Mixing Height from Ceilometers Biavati, Gionata 21 March 2014 (has links) The subject of this thesis is the application of optical backscatter measurements to locate a special property of the lowest part of the atmosphere -- the mixing height. Mixing height is the altitude of the top of the layer where all the fluxes emitted at the ground become well mixed. Since Holzworth in 1967, the knowledge of this altitude is considered relevant when modeling transport of pollutants or general fluxes originating at the ground. Indirect estimations of the mixing height are possible using atmospheric models, but its accuracy is quite low. Since several institutions are attempting to estimate precise ground fluxes, networks of measurement stations are being created. The correct use of the measured fluxes, in order to estimate the evolution of the air masses, is limited by the accuracy of the localization of this layer. It can be detected in several different ways. Most are related to a direct sounding, performed with meteorological balloons. Remote sensing techniques are also attempted with acoustical or optical instruments. Both optical and acoustical methods have advantages and disadvantages. This work is focused on optical instruments like lidar and ceilometers, which are basically small cost-effective lidar systems. info:eu-repo/classification/ddc/530 ddc:530
150	Report / Institute für Physik Grundmann, Marius January 2014 (has links) Welcome to the 2013 Report of the Physics Institutes of the Universität Leipzig.We like to present to you an interesting overview of our research activities. We have enjoyed scientific interaction with colleagues and partners worldwide and are grateful to our guests for enriching our academic year with their contributions in the colloquium and within the work groups. info:eu-repo/classification/ddc/530 ddc:530 Universität Leipzig, Physik university Leipzig, physics

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