Sentences with phrase «tu kaiserslautern»
By implementing this state - of - the - art setup in combination with advanced simulation techniques the TU Darmstadt scientists envision to further investigate the mechanisms that lead to improved magnetic performances in samarium - cobalt - based and related permanent magnets systems.
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«Although Al2O3 has electrically insulating properties, it can still be used as a buffer layer between the semi-conductive perovskite and the conductive contacts by limiting the thickness of the layer to one nanometer or less,» says first author Dibyashree Koushik (TU / e).
Koster led the research together with scientists from The Hebrew University of Jerusalem and the Kavli Institute of Nanoscience at TU Delft in The Netherlands.
The work is the result of a collaboration between the workgroups led by Prof. Reinhard Kienberger, who heads the Chair of Laser and X-ray Physics at TU Munich and Stephan Fritzsche, professor at the Institute of Theoretical Physics of the Friedrich Schiller University of Jena.
The study was financially supported by the Transregional Collaborative Center Spin + X of TU Kaiserslautern and Johannes Gutenberg University Mainz.
Using enzyme assays and mass spectroscopy investigations, Dr. Johannes Lehmann, a researcher at the Chair of Organic Chemistry II at TU Munich, demonstrated during his doctoral work that the new inhibitor blocks especially the enzymes Pks13 and Ag85, which play a key role in the development of mycomembranes.
In the labs at TU Vienna, different kinds of reinforcement were tested to see how strongly they can be bent — a radius of curvature of just three meters is feasible.
Two years ago, Prof. Andrei Pimenov and his team at the Institute of Solid State Physics of TU Vienna, together with a research group from the University of Würzburg, managed to achieve a massive Faraday effect as they passed light through special mercury telluride platelets and applied a magnetic field.
Researchers at TU Eindhoven have now cleared a major scientific hurdle towards a new technology in which the patient lies on a table and the breast hangs freely in a bowl.
Johann Kollegger and Benjamin Kromoser (TU Vienna) have developed the new construction technique, which has now been successfully tested on the Aspang Grounds in Vienna.
The recently launched project is coordinated by a team led by Robert Kourist, head of TU Graz's Institute of Molecular Biotechnology.
Researchers at TU Eindhoven are working on a «breast - friendly» method, without radiation, that is more accurate and generates 3D rather than 2D images.
Microalgae have been growing and thriving in glass tubes and flasks in a controlled way at TU Graz for several weeks, and of course, not without reason.
Researchers at the Max Planck Institute of Molecular Cell Biology and Genetics (MPI - CBG), the Biotechnology Center of the TU Dresden (BIOTEC), and the Washington University in St. Louis, USA have now identified for the first time a benign, albeit biologically relevant function of prion domains as protein specific stress sensors that allow cells to adapt to and survive environmental stresses.
A non-volatile memory keeping its digital information without power and working at the same time at the ultrahigh speed of today's dynamic random access memory (DRAM)-- that is the dream of materials scientists of TU Darmstadt.
«The flux of the x-ray radiation depends on the wavelength of the laser,» says Skirmantas Alisauskas (TU Wien).
Scientists from the Center for Advancing Electronics Dresden / TU Dresden and the University of Tokyo led by Dr. Thorsten - Lars Schmidt (cfaed) developed a method to protect DNA origami structures from decomposition in biological media.
This technique, which was developed at TU Berlin, can take images with a temporal separation of less than a nanosecond.
Electrical engineers at the Vienna University of Technology (TU Wien) together with researchers from Berlin have drastically increased the flux of X-ray photons using a newly developed mid-infrared laser system.
A team of scientists of Johannes Gutenberg University Mainz (JGU) and TU Berlin, together with colleagues from the Netherlands and Switzerland, has now been able to investigate the dynamics of these whirls experimentally.
The researchers of TU Darmstadt are following a recipe which has been extremely successful in semiconductor device technology: They focus on the defects in the material.
The laser of TU Vienna now produces one watt of radiation.
«First we have contributed by labeling studies using stable isotopes to investigate the metabolic pathways for latex production,» says Professor Wolfgang Eisenreich, biochemist at TU München.
At the Vienna University of Technology (TU Vienna) a new world record has now been set; using a special merging technique, two symmetrical laser structures have been joined together, resulting in a quadruple intensity of laser light.
Dr. Nils Haag from the Chair of Experimental Astroparticle Physics at TU München recently developed an experimental setup at the FRM II that allowed him to determine the missing spectrum of uranium 238.
TU Graz.
At the TU Wien, Setvin and coworkers are now able to activate individual O2 molecules at will using a force microscope, and learn how the process occurs at the atomic scale.
At TU Wien (Vienna), it has become possible to control one of the most important chemical processes: switching oxygen molecules between a reactive and unreactive state.
This is not only another record for TU Vienna, breaking the one - watt barrier is considered to be an important step for the application of terahertz lasers in a variety of technological fields.
Stefan Freunberger, beneficiary of an ERC grant at TU Graz, investigates ageing processes in non-aqueous batteries.
It consists of work groups from Johannes Gutenberg University Mainz, TU Kaiserslautern, and the Max Planck Institute for Polymer Research in Mainz and offers excellent national and international doctoral candidates in natural science disciplines an exceptional training in materials science.
Co-authors include Enck and Dr. Ahmad - Reza Sadeghi, of TU Darmstadt / CASED.
TU Graz's Stefan Freunberger has now stumbled upon astonishing parallels of oxygen chemistry in battery systems.
For years he has been studying the behaviour of tiny particles on metal - oxide surfaces together with Professor Ulrike Diebold (both TU Vienna).
For years the team at TU Vienna has been working hard to lay the necessary groundwork for this kind of research.
The program — which was run in collaboration with the Technical University of Berlin (TU Berlin) and the German Academic Exchange Service, a funding organization that supports the international exchange of students and researchers — involved joint supervision by advisers in the two countries and research stays in Germany.
Using scanning tunnelling microscopes, scientists at TU Vienna have now been able to image the catalytic behaviour of platinum sitting on iron - oxide, which allowed them to explain the process on an atomic scale.
Volker Mehrmann, a TU Berlin professor who taught classes at EPN as part of the program, says it aimed to fill a void.
Scientists working at Korea University, Korea, and TU Berlin, Germany have developed a brain - computer control interface for a lower limb exoskeleton by decoding specific signals from within the user's brain.
That's the idea of the reflective windows Hitesh Khandelwal developed during his doctoral research at TU / e, that are able to reflect invisible infrared light but allow visible light through.
«Quasiparticles are not particles in the conventional sense, but rather excitations of a system consisting of many interacting particles,» explains Prof. Silke Bühler - Paschen from the Institute of Solid State Physics at TU Wien.
«Other studies have evaluated the effects on older athletes, such as retired NFL players, but no one has studied 20 - year - olds until now — and the results were remarkable and surprising,» said Patrick S.F. Bellgowan, director of cognitive neuroscience for LIBR and a faculty member at TU.
The university's Department of Athletics identifies with that mission in a very specific way: TU wants to protect its players,» Bellgowan said.
Now, once again, there has been a breakthrough in this field of research, with researchers at TU Wien being the first to successfully detect Weyl particles in strongly correlated electron systems — that is, materials where the electrons have a strong interaction with each other.
Years of clinical experience lead David Polanski, TU's head athletic trainer and co-author of the study, to propose the hypothesis that the number of years of football - playing experience might contribute to anatomical and behavioral changes.
The system conceived at TU Eindhoven uses infrared light with wavelengths of 1500 nanometers and higher; this light has frequencies that are thousands of times higher, some 200 terahertz, which makes the data capacity of the light rays much larger.
The study, conducted at The University of Tulsa (TU) in partnership with the Laureate Institute for Brain Research (LIBR), is the most comprehensive ever to assess the effects of football specifically on college players.
I feel lucky to be given good technical support both at TU / e and ASML.
«As a premier research university and NCAA Division I school, TU is committed to studying the effect of contact sports on the brain,» Polanski said.
This was the subject for which TU / e researcher Joanne Oh received her PhD degree with the «cum laude» distinction last week.