Condensed Matter Physics, Bonn Theoretical condensed matter Physics. Prof. Dr. Hartmut Monien Seminars. Numerical Methods for condensed matter Physics, WS 2004/05 http://cond-mat.uni-bonn.de/
Condensed Matter Physics condensed matter Physics journal published by the Institute for condensed matter Physics. Recognized by the European Physical Society http://cmp.thphy.uni-duesseldorf.de/
UBC PhysAstro: Home Page Undergraduate and graduate programs; research areas include condensed matter, theoretical, subatomic, and medical physics. http://www.physics.ubc.ca/
Nanostructured Media Research Top paper 2004. A recent publication was highlighted amongst the top publications in the IoP s J. Phys condensed matter in 2004 here http://www.qub.ac.uk/mp/con/
Extractions: WITH THANKS Nanostructured Media is one of the most rapidly growing and exciting areas of research at Queen's. An understanding of materials with new and exciting properties, and the ability to process and fabricate them, is of great importance to the future well-being of modern, high-tech industries. Our team of researchers is at the forefront of this science and technology. The development of new media and their potential exploitation in commercial devices is also relevant to the work carried out by the staff. Consequently, postgraduate research projects and training offered by the staff will provide an excellent basis for future employment. Our PhDs and post-docs have secured positions in many leading high technology companies worldwide and in leading university research groups. The overwhelming majority of our research can be considered to be truly based in nanotechnology, where we are fabricating or imaging in upto 3D in the sub 100nm scale. Our research in this area falls under the umbrella of a new research centre
Welcome To Complex Photonic Systems Various aspects of condensed matter are being investigated by optical methods. The research is aimed at static and dynamic properties of complex micromatter, including strongly scattering photonic matter, photonic band gap materials, complex fluids and biologicallyinspired membrane systems. http://www.tn.utwente.nl/cops/
Institute Of Experimental Physics - University Of Gdansk condensed matter Spectroscopy Division Our research interests cover a wide range of condensed phase spectroscopy problems including various areas of http://www.ifd.univ.gda.pl/?page=zaklad&lang=en&id=13
Intense Pulsed Neutron Source Home Page The Intense Pulsed Neutron Source facility supports research on condensed matter for researchers at universities, industry, and other government laboratories. http://www.pns.anl.gov/
Extractions: Click for a larger image Welcome From the Director We welcome you to Argonnes Intense Pulsed Neutron Source (IPNS)*. As a scientist aiming to do a neutron scattering experiment at IPNS or as a casual visitor, we are happy to have you browse our web site and would cordially receive your visit to our facility. Commissioned in 1981, IPNS has operated continuously since startup and has the distinction of achieving many firsts in neutron scattering. Virtually all 1st generation time-of-flight instrumentation was developed at IPNS and IPNS was the first DOE facility dedicated to users. IPNS hosts about 250 users each year from all over the world, performing about 400 experiments during our running periods, which average 26 weeks/year. If you are interested in performing some work at IPNS click here to access a downloadable proposal form. 75% of the facilitys time is available to outside users and you dont have to be an expert in neutron scattering to use our facilities. Novices to neutron scattering are welcome too! Should you need data for one or two samples quickly, we provide fast access proposals for some of our instruments
Materials Theory Institute Aims to attract leading talents in the field of condensed matter physics for collaborative work closely related to Argonne's experimental and theoretical projects. http://mti.msd.anl.gov
Extractions: The Materials Theory Institute is designed to attract the leading experts and best talents in the field of condensed matter physics for collaborative work closely related to Argonnes experimental and theoretical projects. A goal of the Materials Theory Institute is to foster growth and expansion of theoretical science laboratory-wide. The Institute intends to have a major impact on the overall research at ANL and to play a crucial role in the formulation of new research directions and future initiatives. Its activities aim to benefit individual groups, both theoretical and experimental. The Institute catalyzes interdisciplinary interactions and collaborations. The Theory Institute is based on relevance, flexibility, and cost-efficiency. Its most important characteristic is cutting edge research of the highest quality. The Institute is largely built on visitor programs: visiting members possess expertise complementary to that available at Argonne and support and strengthen projects led by the permanent staff. The duration of regular visits may vary from two weeks to two years. This format enables us to maintain the mobile, well focused, and highly interactive character of the research and allows tackling a rich variety of the most urgent and topical scientific problems. The simultaneous presence of the leading experts, working as a team on focused projects, enables us to organize a series of the workshops, devoted to the most urgent topics emerging in condensed matter and material physics. These workshops attract the most talented scientists, advance the current projects, and contribute enormously to the creative and stimulating atmosphere of the Institute.
Condensed Matter - WFU The area of major concentration is condensed matter physics, which includes the work of two experimentalists (David Carroll and Richard T. Williams) and http://www.wfu.edu/Academic-departments/Physics/condensed.html
Extractions: The area of major concentration is condensed matter physics, which includes the work of two experimentalists ( David Carroll and Richard T. Williams ) and three theorists ( Natalie A. W. Holzwarth William C. Kerr , and G. Eric Matthews The group working with Richard Williams uses ultrafast spectroscopy to investigate the immediate consequences of absorption of a photon by a crystalline solid. They use ultrashort (~80 fs) laser pulses to create an electronic excitation of the solid and monitor its evolution within the coupled electron-lattice system. Phenomena of interest include self-trapping of excitons and of charge carriers in insulators, relaxation of hot carriers and surface state dynamics in semiconductors, excitonic processes of lattice defect formation, and desorption from surfaces. Photoelectron spectroscopy and related surface science techniques are conducted both with ultrafast excitation/probe laser techniques for dynamic studies and in conventional synchrotron radiation experiments at the National Synchrotron Light Source. Concerns with surfaces, lattice defects, and laser-solid interactions lead naturally to a parallel interest in the spatial atomic structure of surfaces and surface defects, observed directly by scanning tunneling microscopy and atomic force microscopy. The scanning tunneling microscope is used to characterize laser effects on metals and semiconductors, as well as more general atomic-scale studies.
Physics Department Carries out research in experimental and theoretical high energy, nuclear and condensed matter physics. Programs, projects and people are showcased. http://www.bnl.gov/physics/
Extractions: This web site is designed for accessibility. Content is obtainable and functional to any browser or Internet device. This page's full visual experience is available in a graphical browser that supports web standards. See reasons to upgrade your browser BNL: Departments Science Newsroom Administration ... Directory search Find people (by last name) Advanced search Physics Home Administrative Organization Chart Dept. Directory Dept. Calendar Dept. Committees ... Conference Rooms Computing Cybersecurity Info Computing Resources Safety Environmental Management Other Information BNL Site Index Can't View PDFs? Brookhaven Lab Physicist Dmitry Kayran Awarded Russian Academy of Sciences Medal for Junior Scientists
Condensed Matter Theroy Group Welcome to condensed matter Theory Group. Ando lab. Nishimori lab. Saito lab. Ueda lab. Shiino lab. Oshikawa lab. Titech Phys. Dept. Home Page http://www.stat.phys.titech.ac.jp/
MSD Home Page was 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. http://www.igcar.ernet.in/msd/
Extractions: Materials Science Division (MSD) IGCAR, Kalpakkam Research Groups Advanced Materials Design and Development Ion Beam Application Light Scattering ... X-Ray and Crystal Growth [ Home ] About us Research Areas Facilities Research Groups ... Back to IGCAR Send mail to bkp at igcar dot ernet dot in with questions or comments about this web site.
UofL Condensed Matter Physics Group Theoretical condensed matter Physics Activites at the University of Louisville SISSA condensed matter Sector Max-Planck,Stuttgart http://www.louisville.edu/a-s/physics/cond_matter/
PIRA 7A70.00 CONDENSED MATTER 7A70.00, condensed matter. 7A70.10, Josephson junction analog, PIRA 1000. 7A70.10, Fcenter diffusion, AJP 35(11),1023, Place a small KCl crystal in a tube http://www.physics.ncsu.edu/pira/7modern/7A70.html
Extractions: DCS # DEMONSTRATION REFERENCE ABSTRACT Condensed Matter Josephson junction analog PIRA 1000 F-center diffusion AJP 35(11),1023 Place a small KCl crystal in a tube furnace and project the intense blue color that is injected and diffuses through the crystal when 300 V is applied. Josephson phenomena analog AJP 39(12),1504 A Pendulum analog of a small-area Josephson junction between two superconductors is coupled to the analogs of other circuit elements to demonstrate a variety of time dependent phenomena observed in actual devices. Josephson effect simple demo PIRA 1000 flux quantization in superconductors AJP 40(6),897 A induim film with lots of holes is used with a standard magnetometer. F-center diffusion PIRA 1000 Josephson junction analog AJP 49(7),701 Abstract from the 1981 apparatus competition describing an electronic circuit for demonstrating Josephson junction behavior. Josephson effect simple demo AJP 53(5),445 Niobium wire is twisted together, varnished and built into a simple stainless tube that can be inserted into a helium dewar. I-V curves are observed on an oscilloscope. Reference Description M-1 Sutton Ma-1 M-1d Hilton Meiners University of Minnesota Handbook AJP 52(1),85
QCMP Home Page Welcome to the Queen s condensed matter Physics (QCMP) Home Page. Our Discipline The objectives of condensed matter physics are to provide http://cezanne.phy.queensu.ca/QCMP/
Extractions: Welcome to the Queen's Condensed Matter Physics (QCMP) Home Page. The QCMP group consists of 11 full-time faculty members plus postdoctoral fellows and graduate students working on a broad array of research topics. Our Discipline: The objectives of condensed matter physics are to provide understanding of, and develop models for, the enormously rich behaviour of condensed matter systems under a wide variety of conditions. Systems consist of combinations of the hundred or so elements in the form of solids, small clusters, liquids, and dense gases, and in which the multitude of constituent parts are all interacting with one another. They exist under conditions of temperature ranging from the very lowest imaginable, at which superconductivity and superfluidity occurs, to the boiling point. The application of external fields to the systems leads to behaviour such as electrical and thermal transport, and to magnetic properties, all of which can change dramatically if the system undergoes a phase transition. This is the realm of the condensed matter physicist. Faculty Marc Dignam James Fraser Jun Gao Robert J. Gooding
Condensed Matter Theory - Universiteit Antwerpen The research of our group focuses on the theoretical study of the electronic properties of lowdimensional structures. Optical, magnetic and transport http://www.cmt.ua.ac.be/
Extractions: This field of research adresses the intermediate regime between the macroscopic world, which can be described by the laws of classical physics, and the microscopic world for which only quantum mechanics provides an adequate description. The mesoscopic regime is the transition region between the quantum and classical world and the dual nature of the particles is manifested: they can 'reveal' themselves either as interfering quantum objects or as more classical particles depending on the specific conditions. In the nano regime (a nanometer is a 10.000th of the diameter of a hair) the number of particles is small and the well known thermodynamic limit of statistical physics is no longer applicable and finite size effects might become dominant. In these few-body problems, the confinement of the system largely determines its properties. This allows to fabricate 'man-made devices' with specific optical, transport and magnetic properties.
Fehlermeldung 404 condensed matter research on optical data storage materials and basic research on magnetic properties at the Laboratory for Neutron Scattering at ETHZ PSI, Switzerland. Single crystal neutron diffraction at PSI. http://www.mysunrise.ch/users/monika.held/held/schefer-jurg.htm
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Yuriy Pershin Postdoc at the NSF Center for Quantum Device Technology, Clarkson University, working in the field of spintronics and condensed matter physics. http://www.clarkson.edu/~pershyn/
Rosa Lopez Postdoc in Geneva in condensed matter theory. http://theory.physics.unige.ch/~lopez/
