Open Directory - Science: Physics: Condensed Matter: Research Groups and Centers
See also: This category in other languages: - headed by Prof. J. D. Joannopoulos - Description of research and publications bibliography. - Aims to attract leading talents in the field of condensed matter physics for collaborative work closely related to Argonne's experimental and theoretical projects. - The programme is a collaboration of experimental and theoretical physicists working on the behaviour of correlated electrons in oxide materials. Based in the School of Physics and Astronomy at Birmingham University, United Kingdom. Materials of interest include the high temperature cuprate superconductors, non-Fermi liquid physics near quantum critical points, unconventional superconductivity in the ruthanates and heavy fermion behaviour in lithium vanadate. - Part of the Joint Institute for Nuclear Research in Dubna, Russia, the group works on disordered structures, topological defects in solids, carbon nanostructures, biophysics, quasicrystals, glasses, amorphous solids, Josephson junctions and granular superconductors - At the West University of Timisoara. Research activities include materials synthesis, crystal growth under extreme pressure and temperature conditions, liquid crystals phase transitions and thin films. In English and Romanian. - Research is focused on nanostructure, low-temperature, x-ray and soft condensed matter physics. - Organic Optoelectronics Research at Cornell University - At the Laboratory of Atomic and Solid State Physics. - Heavy ion accelerator applied to basic solid state research and engineering. In German and English. - Established in 1973 at the Indira Gandhi Centre for Atomic Research, Kalpakkam, India, as a part of a multidisciplinary research and developmental programme on basic research in condensed matter and materials science. - National Academy of Sciences of Ukraine. - The Institute, part of the Russian Academy of Sciences, works on long-range electron transfer in DNA and proteins, bipolarons, and the dynamics of a crystal lattice with defects. - One of Russia's largest institutions for research in physics and technology with a wide variety of operating projects. - Research in the shaped crystals growth. Main interest is a Sapphire shaped crystals growth: sapphire tubes, rods, and ribbons. For optics, mechanics, medicine and other applications. - Research into the areas of soft condensed and biological matter, nanomagnetism and highly correlated electron systems. - Ion beam analysis (IBA) using a particle accelerator and methods like RBS, ERD, PIXE/PIGE. Summary of projects on ion beam LIGA, lithography and MEMS is presented. - At Arizona State University. Research activities include solid state physics and chemistry, earth and planetary sciences and materials research. - Research and development at Utah State University, Logan. - Institute for Condensed Matter Physics. - Undertaking research into the properties of a variety of semiconducting heterostructures, devices and carbon nanotubes. Also studying advanced designs for photovoltaic cells. At the Clarendon Laboratory, Oxford, UK. - Information on nano-scale research, development and production applications using focused ion beam and other technologies for archival data storage, MEMS, micromachining and semiconductor applications. - The neutron scattering facilities of the high flux research reactor are available for outside users on problems of scientific merit. Although the main purpose of the HFIR is to produce transplutonium elements for use in industry, medicine and research, the reactor's extremely high flux also makes it a source of neutrons for condensed matter investigations. - The Electron Microscopy Group of the Materials Science and Technology Division. Research using STEM imaging and spectroscopy to solve key issues in condensed matter, materials, chemical and nanosciences. - Members, research details, studentships, seminars, industrial links. - "Moving the bottleneck out of the hardware and back into the human mind": aims to grid-enable the realistic modelling and simulation of complex condensed matter structures at the meso and nanoscale levels as well as the discovery of new materials. - Research Network on new materials for optical datastorage, interesting for holographic data storage in 3 dimensions with capacities up to TByte/cm2. We are performing basic research and encourage industrial partners to join our network. - Peter Nordlander's group investigates non-equilibrium processes in mesoscopic systems and on surfaces focus on many-electron effects. Qimiao Si specializes in the theory of strongly correlated electron systems emphasis on non-Fermi liquid behavior. projects: quantum dot, Kondo, nanoparticles, high temperature superconductors - The STREAM project is funded by the European Community and deals with high resolution strain measurement and its application to sub-micron microelectronic devices, although applicable to any crystalline materials. - Activity, publications, facilities. Located in P.S.M. - C.N.R. in Rome, Italy. Research includes humidity and chemical sensors. - Magnetic properties of nano structures by Conversion Electron Moessbauer Spectroscopy - CEMS. Department of solid state Physics, Krakow, Poland. - Research into understanding and controlling the magnetism of nanometer-sized molecular systems at Iowa State University. - Condensed Matter Group - Members, research interests, publications, lectures, seminars and external links. - These pages contain information on the research interests, members and publications of the group. - led by Joseph N Grima. - Research group on photothermal techniques, including thermal properties measurements of solids, liquids and gases. - The group is based in the physics department at Washington University in St. Louis. Activities include research in condensed-matter and materials physics with applications in nanoscience, nanotechnology and thin film growth. Typical areas of relevance are magnetic nanostructures, nanostructured titania photocatalysts, ion beam modification of materials and practical ways to create desired nanostructures using directed self-assembly.
