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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
191

Theory of diffusion under stress

Nazarov, Andrei V., Mikheev, Alexandr A. January 2005 (has links)
No description available.
192

Li diffusion in LiAlO 2 single crystals studied with NMR spectroscopy

Indris, Sylvio, Uecker, Reinhard, Heitjans, Paul January 2005 (has links)
No description available.
193

NMR of Electron-Doped High-Temperature Superconductor Pr(2-x)Ce(x)CuO(4)

Jurkutat, Michael 04 October 2015 (has links)
Diese Arbeit befasst sich mit der Charakterisierung einer verhältnismäßig wenig beforschten Untergruppe der hochtemperatur-supraleitenden Kuprate (HTSCs-high-temperature superconducting cuprates), den elektronendotierten HTSCs, vermittels kernmagnetischer Resonanz (NMR-nuclear magnetic resonance). Die Untersuchungen umfassen 63Cu und 17O NMR an ausgerichteten Pulverproben und Einkristallen von Pr2−xCexCuO4 (x = 0, 0.05, 0.10, 0.15, 0.20) sowie auch Nd2−xCexCuO4 (x = 0, 0.13) in externen Magnetfeldern von 2.35 bis 17.6 T und Temperaturen zwischen 8 und 400 K. Durch eine Vielzahl von Experimenten wird die erste eindeutige spektrale Analyse für beide Nuklide vorgenommen. Es wird gezeigt, dass die indirekte, homonukleare Kopplung, wie sie beim Hahn-Echo-Zerfall von planarem 63,65Cu in lochdotierten HTSCs und auch im undotierten Pr2CuO4 gefunden wird, durch Elektronendotierung weitestgehend unterdrückt wird. Eine Analyse der Quadrupolaufspaltungen zeigt, dass nicht nur die lokale Verteilung der dotierten Elektronen und Löcher in den CuO2-Schichten quantitativ gemessen werden kann, sondern, dass auch Unterschiede in den 63Cu und 17O Aufspaltungen verschiedener undotierter Kuprate auf eine variable Ladungsverteilung zurückzuführen sind. Somit ist eine quantitative Messung der lokalen Ladungsverteilung in der CuO2 -Schicht der HTSCs möglich, welche ein neues, differenziertes Bild der unterschiedlichen Materialien ergibt.
194

Self-diffusion slowdown in liquid indium and gallium under confinement

Charnaya, Elena V., Tien, Cheng, Michel, Dieter, Lee, Ming Kwang, Wang, Wei January 2005 (has links)
No description available.
195

Moments method applied to the In-Situ characterisation of normal butane mass transfer in MFI zeolite membranes: Moments method applied to the In-Situ characterisation of normalbutane mass transfer in MFI zeolite membranes

Courthial, Lucile, Baudot, Arnaud, Jolimaitre, Elsa, Tayakout, Melaz, Jallut, Christian January 2005 (has links)
No description available.
196

Gas diffusion in polycrystalline MFI-type zeolite membranes

Takaba, Hiromitsu, Yamamoto, Atsushi, Hayamizu, Kikuko, Nakao, Shin-ichi January 2005 (has links)
No description available.
197

Complex thermorheology of living cells

Schmidt, Sebastian, Kießling, Tobias, Warmt, Enrico, Fritsch, Anatol, Stange, Roland, Käs, Josef A. January 2015 (has links)
Temperature has a reliable and nearly instantaneous influence on mechanical responses of cells. As recently published, MCF-10A normal epithelial breast cells follow the time-temperature superposition (TTS) principle. Here, we measured thermorheological behaviour of eight common cell types within physiologically relevant temperatures and applied TTS to creep compliance curves. Our results showed that superposition is not universal and was seen in four of the eight investigated cell types. For the other cell types, transitions of thermorheological responses were observed at 36 °C. Activation energies (EA) were calculated for all cell types and ranged between 50 and 150 kJ mol-1. The scaling factors of the superposition of creep curves were used to group the cell lines into three categories. They were dependent on relaxation processes as well as structural composition of the cells in response to mechanical load and temperature increase. This study supports the view that temperature is a vital parameter for comparing cell rheological data and should be precisely controlled when designing experiments.
198

Report / Institute für Physik

Grundmann, Marius January 2015 (has links)
The 2014 Report of the Physics Institutes of the Universität Leipzig presents a hopefully interesting overview of our research activities in the past year. It is also testimony of our scientific interaction with colleagues and partners worldwide. We are grateful to our guests for enriching our academic year with their contributions in the colloquium and within the work groups. The open full professorship in the Institute for Experimental Physics I has been filled with an outstanding candidate. We could attract Prof. Ralf Seidel from the University of Münster. He is an expert in molecular biophysics that complements the existing strength in cellular biophysics. Prof. Hollands could fill all positions of his ERC Starting Grant, so that the work on the project \"Quantum Fields and Curvature – Novel Constructive Approach via Operator Product Expansion\" is now running at full pace. Within the Horizon 2020 project LOMID \"Large Cost-effective OLED Microdisplays and their Applications\" (2015-2017) with eight European partners including industry the semiconductor physics group contributes with transparent oxide devices. A joint laboratory for single ion implantation was established between the Leibniz-Institute for Surface Modification (IOM) and the university under the guidance of Profs. Rauschenbach and Meijer. The EU IRSES Network DIONICOS \"Dynamics of and in Complex Systems\", a consortium of 6 European and 12 non-European partners, including sites in England, France and Germany as well as in Russia, Ukraine, India, the United States and Venezuela, started in February 2014. In the next four years the Leipzig node headed by Prof. Janke will profit from the numerous international contacts this network provides. With a joint project, Prof. Kroy and Prof. Cichos participate in the newly established priority research programme SPP 1726 \"Microswimmers\", which started with a kick-off workshop in October 2014. In 2014 the International Graduate College \"Statistical Physics of Complex Systems\" run by the computational physics group has commenced its third 3-years granting period funded by Deutsch-Französische Hochschule (DFH-UFA). Besides the main partner Université de Lorraine in Nancy, France, now also Coventry University, UK, and the Institute for Condensed Matter Physis of the National Academy of Sciences of Ukraine in Lviv, Ukraine, participate as associated partners. During the last week of September the TCO2014 conference \"Transparent Conductive Oxides – Fundamentals and Applications\" took place in honor of the 100th anniversary of the death of Prof. Dr. KarlW. Bädeker. In 1907 Karl Bädeker had discovered transparent conductive materials and oxides in Leipzig. About a hundred participants joined for many invited talks from international experts, intense discussion and new cooperations. At the end of November the by now traditional 15th nternational Workshop on Recent Developments in Computational Physics \"CompPhys14\" organized by Prof. Janke took place in Leipzig. Around 60 scientists from over 10 different countries exchanged ideas and discussed recent progress in several fields of computational physics. Work has successfully continued in the Centers of Excellence (Sonderforschungsbereiche) SFB 762 \"Functionality ofOxide Interfaces\" and SFB TRR 102 \"Polymers under Multiple Constraints: Restricted and Controlled Molecular Order and Mobility\" (just renewed for 2015-2019). Our activities and success are only possible with the generous support fromvarious funding agencies for which we are very grateful and which is individually acknowledged in the brief reports.
199

Rock-typing of laminated sandstones by nuclear magnetic resonance in the presence of diffusion coupling: Rock-typing of laminated sandstones by nuclear magnetic resonance in the presence of diffusion coupling

Alhwety, Nader H., Sayedakram, Nawaf I., Shikhov, Igor, Arns, Christoph H. January 2014 (has links)
In this work, the aim is to assess the relative import ance of the impact of diffusional coupling on NMR measurements of saturated laminated sandstone numerically at the layer scale to assess the feasibility of NMR rock-typing approaches. We use two 3D model structures based on a Boolean particle process, providing a range of structural to diffusion length ratios to explore the relationships between pore geometry, surface magnetic properties, and NMR transverse relaxation time. The influence of surface relaxivity and bulk susceptibility contrast on T2 relaxation responses is tested for layered structures to improve the rock-typing methodology. An escalation in pore coupling is observed with decreasing bed thickness as well as decreasing bulk susceptibility contrast and surface relaxivity the latter ones reducing the time available for pore coupling by reducing the effective relaxation rate. When pore coupling is strong, the T2 distribution clearly misrepresents the underlying bimodal distribution of the different morphologies. Consequently, the bimodal relaxation time becomes merged and the relative amplitude of the peaks fails to reflect the true morphologies of the models. Furthermore, we observed that in low noise conditions of numerical simulation the effect of diffusional coupling on transverse relaxation may be misinterpreted for the regularization effect on ILT solution. In such cases, careful selection of Laplace inversion method is essential for effective rock-typing by NMR.
200

Magnetic resonance relaxation measurements using open-geometry sensors to assess the clog state of constructed wetlands

Hughes-Riley, Theodore, Webber, John Beau, Newton, Michael Ian, Morris, Robert H. January 2014 (has links)
Monitoring the T1 relaxation of wetland clog matter has previously been identified as a gauge of its clogged state [1]. Magnetic resonance (MR) sensors explored in other work have typically been of a bore-whole configuration, which may not be ideal in a wetland environment where the sensitive volume of the sensor may become physically clogged and therefore inoperable. This work investigates two open-geometry sensor designs and a short study is presented to determine the suitability of the sensors for monitoring the clog state of wetlands. It was shown that a bar magnet geometry has a higher stray field than that of the four magnet surface sensor also presented, leading to a prohibitively short T2 eff. This means that the T1 values collected are notably shorter and not useful for distinguishing between clog state for the single magnet sensor. By contrast the four magnet surface sensor has a longer T2 eff, making it more suitable for T1 measurements; where T1= 915 ± 212 ms for a very thinly clogged sample, and T1= 127 ± 27 ms for a heavily clogged sample. This offers a clearly resolvable difference in the T1 values allowing the clogging state to be easily determined and making this sensor the desirable choice for long-term embedding.

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