Erweiterte Suche der Leibniz Universität Hannover

Solid State Quantum Standards Schematic connection of electrical units and their relation to quantum values Macroscopic quantum systems will play a significant role in all future quantum devices as well as ultra precision measurements, since quantum effects provide the ultimate, stable reference scale based solely on fundamental constants.

Solid Waste Management Goal of the module: The course imparts advanced knowledge on how to manage and treat waste with regard to sustainability and circular economy. At the beginning, definition of waste, general conditions as well as specific waste amounts will be briefly introduced. Solid Waste Management SWM steps such as collection, transportation, sorting, treatment, recycling and disposal is the next focus of this course.

Complementary lab classes in solid state physics Guidelines The courses are conducted following our set of laboratory rules english version in preparation . Further questions can be addressed to Dr.

Mechanics of Solids Commercial computational software for the analysis of mechanical stresses and deformations, e.g. based on the Finite Element Method FEM , offer a large choice of elastic and inelastic material models for small and large deformation.

Research Team Solid state and materials analytics The group headed by Prof. Dr. Denis Gebauer is a team of several postdoctoral students as well as doctoral students. The group s research focuses on the crystallization of bio minerals and organic materials. Research interests, projects and publications Solid state and materials analytics Meet our team Professors Prof. Dr. Denis Gebauer Email gebauer acc.uni hannover.de Phone ...

Research Group Solid State and Materials Analytics lead by Prof. Dr. Denis Gebauer The analytical expertise of the Gebauer group is the development and combination of various methods for the detailed and quantitative study of the mechanisms of the formation of solids from solution.

Research Team Inorganic Solid State and Materials Chemistry The team formerly headed by Prof. Dr. Peter Behrens is working in four groups on different aspects of research. One of the groups is based at the Lower Saxony Centre for Biomedical Engineering, Implant Research and Development NIFE . Research interests, projects and publications Inorganic solid state and materials chemistry Meet our team Postdoctoral researchers Dr. ...

Research Group Inorganic Solid State and Materials Chemistry The research group deals with the controlled synthesis of metal organic frameworks MOFs under mild, mostly solvothermal conditions. Computational chemistry is also used to model these inorganic organic hybrid materials. The functionalization of solid surfaces is also of interest. Research is being conducted on this, for example to develop drug releasing coatings for...

Publications of the Solid State and Materials Analytics Group Publications Journals C. B. Feng, B. Q. Lu, Y. S. Fan, H. J. Ni, Y. F.i Zhao, S. Tan, Z. Zhou, L.

Research Projects of the Solid State and Materials Analytics Group Year 2021 2016 2014 2013 Materials World Network MWN for Particle mediated Control Over Crystallization: From the Pre nucleation Stage to the Final Crystal A Materials World Network MWN will be formed to investigate mechanisms of particle mediated crystallization through which mesocrystals crystals structured on the mesoscale are created.

Behrens 1997 : XANES Spectroscopic Study of the Electronic Structure of Ti in KTiOPO 4 and some of Its Isomorphous Compounds , Solid State Commun 103 1997 203 207 DOI: 10.1016/S0038 1098 97 00173 7 C.M. Braunbarth, P. Behrens, J. Felsche, G. van de Goor 1997 : Phase Transitions and Thermal Behaviour of Silica Sodalites , Solid State Ionics 101 103 1997 1273 1277 DOI: 10.1016/S0167 2738 97 00401 3 G.

Solid State Source of Entangled Photons 06/28/2023 Quantum dot based single photon emitter is operability above liquid nitrogen temperature Here we report the first GaAs/AlGaAs quantum dots grown by the droplet etching and nanohole infilling method, emitting single photons with a narrow wavelength distribution 736.2 1.7 nm close to the zero phonon line of silicon vacancy centers.

Solid State Source of Entangled Photons 28.06.2023 Quantum dot based single photon emitter is operability above liquid nitrogen temperature Here we report the first GaAs/AlGaAs quantum dots grown by the droplet etching and nanohole infilling method, emitting single photons with a narrow wavelength distribution 736.2 1.7 nm close to the zero phonon line of silicon vacancy centers.

Winter School on Solid state quantum photonics 12/20/2021 The research groups of Prof. Oestreich and Prof. Ding from the Institute for Solid State Physics have jointly organized a winter school on solid state quantum photonics at the Lutherheim Conference Center in Springe from November 26th to 27th.