81. Current Research Areas spectroscopy. (YW.Kim). plasma physics Theoretical. Studies Europe.(AH.Kritz). Atomic Physics and Plasma Spectroscopy. Experimental http://physics.physics.lehigh.edu:1525/research.html

Current Research Areas Solid-State Physics - Experimental Six faculty members are leading interrelated investigations into the optical and electronic properties of nonmetallic solids. The systems under consideration range from fairly simple impurities in ionic crystals to unknown defects in semiconductors and non-crystalline oxides. Specific projects include: Studies of point defects in elemental and compound semiconductors. These include impurities as well as defects produced by irradiation in the 3 MeV Van de Graaff accelerator. Electron paramagnetic resonance (EPR), optical detection of magnetic resonance (ODMR), deep-level transient capacitance spectroscopy (DLTS), and conventional optical absorption and luminescence spectroscopy are used to unravel their microscopic properties. (G.D. Watkins) Studies of point defects in semiconductors. Our current interest is in defect complexes that contain light-element impurities. Vibrational spectroscopy and uniaxial stress techniques are used to elucidate microscopic properties. (M. Stavola) Studies of the generation and propagation of strain waves in metals produced by gas shock loading in a shock tube. Development of model equations for describing non-linear strain relaxation and strain hardening. (W.R. Smith)

82. Plasma Physics Information Discussion and information exchange forum for plasma scientists organized by the Institute of Physics .Category Science Physics Plasma Associations......Forum, The IOP plasma physics Group website. The 30th plasma physics Annual Conferencewill be held in Aachen, Germany between 24th and 28th March 2003. http://www.plasma-physics.info/

PlasmaPhysics.Info Fusion, Semi-Conductors, Lasers, Chemistry, ... Forum The IOP Plasma Physics Group website Register: FORUM Annual Conference:. The 30th Plasma Physics Annual Conference will be held in Aachen, Germany between 24th and 28th March 2003. Please do not forget to REGISTER with the conference in addition to submitting your abstract. Program details can be found at this WEBSITE . The English translation can be found HERE Abstract submission closed Any queries about the conference can be raised at the Forum. The deadline for reserving places on the buses travelling between Amsterdam and Aachen is the 6th February. See HERE for more details FREE IOP Membership Postgraduate membership of the IOP from the EPSRC IOP PPG Committee - Meetings - Constitution Events ... IOP Plasma Physics Group If you believe that any images or written content on this website infringes on your

83. The Sun-Earth Connection An introduction to space plasma physics provided by Auburn University's Space plasma physics Page. Covers the sunearth connection, the sun, solar wind, the magnetospere, and aurorae. http://www.physics.auburn.edu/~plasma/space/sunearth.html

The Sun-Earth Connection The Sun and Earth are intimately connected. Other than the light and heat that we receive from the sun, there are many other things that we also experience in this relationship. First of all, there is more than just empty space beyond Earth's atmosphere; there is an environment of rich, active, electrically charged gases, called plasmas , that the Earth resides in. The origin of these plasmas is the sun, more specifically the solar wind . The most noticeable traces of this plasma environment are the Northern and Southern Lights, or the aurora The activity of the sun is also thought to affect our weather and climate, both long and short term, as solar behavior can last over centuries to mere minutes. Of particular note, the activity of the aurora are closely tied to the activity of dark spots found on the suns surface, called sunspots. In fact, the "Little Ice Age", a period of abnormally low temperatures during the 15th-18th centuries, was also a period when there were very few sunspots. Solar flares are thought to slightly change the density of our atmosphere and may cause blockouts, communications disruptions, and magnetic storms. The Sun Solar Physics fusion . Four hydrogen nuclei fuse to form a helium nucleus. About 700 million tons of hydrogen are converted into helium every second, producing 5 million tons of pure energy!

84. RMKI Department Of Plasma Physics Welcome to the. Department of plasma physics. KFKIResearch Institutefor Particle and Nuclear Physics Konkoly-Thege ut 29-33, Budapest http://www.rmki.kfki.hu/plasma/

Welcome to the Department of Plasma Physics KFKI-Research Institute for Particle and Nuclear Physics Konkoly-Thege ut 29-33, Budapest, Hungary Letters: KFKI-RMKI, P.O.Box 49, Budapest-114, H-1525 Tel: (36-1) 392 2519 Fax: (36-1) 395 9151 The Department of Plasma Physics studies phenomena in plasma physics, atomic physics, laser physics and their interdisciplinary fields. Experimental investigations are performed in the laser laboratory of our department and in many other foreign/Hungarian laboratories. Research areas and goals: Interaction of neutral and charged particles and microscopic pieces of solid material with hot plasma. The studies are aimed at: Investigation of processes which determine the motion of these particles in the plasma. Derive different plasma parameters (e.g. temperature, density, magnetic field) by observing the motion of these particles in the plasma. Study how plasma parameters effect the spectrocopically observed atomic stucture. Study of motion and interaction of laser light induced plasmas (laser plasmas). Due to the interaction of the laser light with the plasma, high order harmonic laser light is generated. This is a coherent, ultrashort laser light pulse in the vacuum ultraviolet and soft X-ray wavelength range. Investigation of soft X-ray radiation from the laser plasma. Generation of short X-ray pulses.

85. Research Areas plasma physics at WVU. The plasma physics group studies the fourth stateof matter. plasma physics Research at WVU. The WVU Q Machine Group. http://www.as.wvu.edu/phys/plasma.htm

Plasma Physics at WVU The plasma physics group studies the fourth state of matter. As many substances are heated from a low temperature, they go through a succession of states: solid, liquid, gas, and plasma. At high temperatures all matter is in the plasma state. This state is characterized by the fact that the atoms of the material have been broken apart, with at least some of the electrons being freed from their parent atom. Thus, a plasma consists of two populations of electrically charged particles - the liberated negatively charged electrons and the positively charged ions. Although physicists know the laws governing the interaction of electrically charged particles, the collective behavior of the large number of particles in a plasma leads to complex and often surprising physical phenomena. Research in plasma physics requires a thorough understanding of many classical disciplines such as fluid dynamics, statistical mechanics, and electromagnetism. Because plasmas are often in a non-equilibrium state, they can be a highly nonlinear medium. Many of the techniques developed for understanding nonlinear systems resulted from basic plasma research. West Virginia University's experimental plasma research program has concentrated on fundamental problems of plasma behavior that are also relevant to the understanding of processes that occur naturally in space plasmas and in man-made fusion plasmas. The WVU Q-machine produces a low-temperature, medium-density, plasma column (similar in several ways to the plasma in the EarthÕs ionosphere). Another experimental program is investigating the potential of the inductively coupled helicon source as a commercial plasma processing system. The helicon source is also used to generate the plasma in a large space simulation chamber in which experiments on collisionless magnetic reconnection and the effects of the space plasma environment on scientific spacecraft are performed.

86. EPPDyL- Princeton University Electric Propulsion And Plasma Dynamics Laboratory Research in electric propulsion, plasma thrusters and fundamental problems in plasma physics. Princeton University. http://alfven.princeton.edu/

87. Université De Montréal, Département De Physique, Plasma Physics plasma physics. One can think of plasmas or ionized gases as beingthe fourth state of matter when considering that, in order of http://www.phys.umontreal.ca/LaRecherche/plasmas_eng.html

Accueil Pour nous joindre Présentation Perspectives d'emploi ... Faculté des arts et des sciences - Département de physique Plasma Physics One can think of plasmas or ionized gases as being the fourth state of matter when considering that, in order of increasing energy, the first three are solids, liquids and gases. If one can succeed in supplying enough energy to a gas, say with an electric field, this can lead to the ionization of its constituent atoms and molecules. The energy spread of plasmas is very large : it goes from the electrical discharges in fluorescent tubes up to the stars. As a matter of fact, 99% of the universe is in the form of plasma. The specific characteristic of a plasma is a medium composed of charged particles (electrons, positive and negative ions) which can thus be strongly influenced by electric and magnetic fields. The group is composed of two professors : HF plasma in the presence of magnetic fields, atmospheric pressure plasma, diagnostic of plasmas (laser-induced fluorescence, electrostatic probes, ion-acoustic and Bernstein waves), plasma etching of materials, numerical modeling. Michel Moisan : design and modeling of HF field applicators, modeling of HF plasmas, design of plasma reactors for surface treatment (polymer and diamond thin film deposition, etching).

88. The Fusion FAQ Is Moving The FAQ (from Princeton plasma physics Lab) is not very extensive, but it has an impressive Glossary. http://www.pppl.gov/~rfheeter/

The Fusion FAQ Home Page is now at http://FusEdWeb.pppl.gov/FAQ/fusion-faq.html Please update your links, bookmarks, etc. This page should transfer you to the new site automatically in 15 seconds, but if not, just click on the link above...

89. Databases For Atomic And Plasma Physics Collection of several links to databases for Atomic and plasma physics Opacities, Atomic spectra, Category Science Physics Plasma Databases......Databases for Atomic and plasma physics. If you are aware of Internet accessible databaseson atomic and plasma physics not listed here, please let us know too! http://www.astro.spbu.ru/db_web/AtDatCent/DBfAPP.html

Databases for Atomic and Plasma Physics See also: Atomic Physics Conferences Free Software Linux ... Atomic and Plasma Physics Atomic Databases Review: Atomic Data and Databases on the Internet: Entering 1996 Table of Databases with Data Keys Coulomb-Born-exchange code ATOM Opacity Project Database , Strasbourg, France: TOPbase telnet to TOPbase and USA mirror userid= topbase password= Seaton+ TOPbase user manual ftp to TOPbase and USA mirror Data for OP Opacities NIFS Database, Nagoya, Japan: registered users only free access IAEA ALADDIN Database , Vienna, Austria: userid=password= aladdin ftp to ALADDIN GAPHYOR Data Center , Orsay, France NIST PRD Databases , Gaithersburg, MD Atomic Spectroscopy Database Bibliographic Database on Atomic Transition Probabilities Electron-Impact Ionization Cross Section Database Spectrum of Platinum Lamp for Ultraviolet Spectrograph Calibration ... Harvard-Smithsonian Center for Astrophysics Databases , MA Search R.L.Kurucz atomic linelist ( CD-ROM 18 and CD-ROM 23 European mirror of CD-ROM 23 database Search R.L.Kelly atomic and ionic linelist

90. Plasma Science And Technology Comprehensive and educational coverage of plasma science and technology with site links worldwide.Category Science Physics Plasma......Comprehensive coverage of all plasma science and technology with site links worldwide;basic plasma physics, space physics, plasma astrophysics, magnetic http://www.plasmas.org/

Enjoy our photo gallery or survey information on plasmas worldwide Plasmas International

91. Plasma Research Laboratory Laboratory has wide interests in experimental, computational and theoretical aspects of two main areas of plasma physics magnetic confinement in toroidal systems, and in open systems with applications to space phenomena and to advanced plasma processing. Australian National University. http://rsphysse.anu.edu.au/prl/

Welcome to the The Plasma Research Laboratory (PRL) has wide interests in experimental, computational and theoretical aspects of two main areas of plasma physics: magnetic confinement in toroidal systems, and in open systems with applications to space phenomena and to advanced plasma processing. The Plasma Research Laboratory is part of the Research School of Physical Sciences and Engineering (RSPhysSE) at the Australian National University. Space Plasma and Plasma Processing (SP3) Toroidal Plasma Research - The H-1 National Facility Research Program Staff List Student List Publications and Reports Student Research Projects Australian Fusion Research Group Other Plasma WWW Sites This page has been accessed times since Oct 8th 1996. Questions about this page can be directed to: Helen Hawes Last changed:

92. Department Of Physics Research Profile Department of Physics Physics Plasma Groups...... Molecular and plasma physics. Within each of these areas there is scope for boththeoretical and experimental research. Atomic, Molecular and plasma physics. http://www.strath.ac.uk/physics/research/

Department of Physics Research Assessment Exercise; 2001 Home Pages University Faculties Science Physics ... Profile Useful links Back Keywords Departmental Research Profile Department Head Prof. William J. Firth The Department of Physics conducts internationally excellent research as shown by the award of a 4 rating in the 1996 RAE, won with a submission of over 30 research-active staff, this being the majority of the eligible staff. Most of the externally-derived research funding is competitively won in peer-reviewed processes and about half of the research income is awarded by the Research Councils, making the Department one of the larger mainstream physics departments in the UK. A commitment to strategic , as well as to fundamental research, has led to its success not only in attracting funds from the EPSRC and the EU, which are core sources for most physics departments, but from a wide range of others, including the Wellcome Trust, the Biological and Biosciences Research Council, Defence Research Agency, Royal Society, Nuffield Foundation, British Nuclear Fuels, Hitachi, Joint European Torus and the Particle Physics Research Council. The flourishing research activity supports about 50 PhD research students and over 30 postdoctoral research fellows. The total current research grant and contract portfolio is £6M and the annual grant and contract expenditure on research is approximately £3M.

93. The World Wide Web Virtual Library: Plasma Science And Technology de Sherbrooke, Canada Plasma Formulary Naval Research Laboratory FrequentlyaskedQuestions FAQ - Robert Heeter Princeton plasma physics Laboratory Fusion and http://www.plasmas.org/resources.htm

The World Wide Web Virtual Library Plasma Science and Technology - Resources Plasmas Worldwide Resources Overview References Sites Worldwide Topics Plasma science and technology are multilevel, multifacted, and multimedia as demonstrated here by diverse and comprehensive links to references, subjects, societies, publications, conferences, funding sources, formulary, glossary, newsgroups, and a broad-based Coalition for Plasma Science founded to increase public awareness and understanding of the plasma sciences and their many applications and benefits to society. General Resources References and Subject Areas Plasma Dictionary from LLNL Sites Worldwide Conferences IEEE Plasma Science and Application Committee Databases, Conferences, Software, Jobs, Who's Who, Site Listings Weizmann Institute, Israel Plasma Properties, Conferences - Centre de Donnees GAPHYOR, Orsay, France Plasma Chemistry Directory Universite de Sherbrooke, Canada

94. IFPILM Research on highpower lasers, laser-matter interaction, inertial fusion, generation of super-strong pulsed magnetic fields, dense magnetized plasmas, tokamaks, theory and numerical modeling of hot plasmas, diagnostics of fast-varying processes. http://www.ifpilm.waw.pl/

95. Dynamic Of Complex Systems And Plasma Physics Group Grupo de F­sica de Plasmas de la Universidad de Concepci³n, Chile. http://gauss.cfm.udec.cl/~hastudil/

Esta página usa marcos, pero su explorador no los admite.

96. Physics plasma physics. Journal of PlasmaPhysics. Edited by R. Alan Cairns University of St Andrews, UK, http://xxx.lanl.gov/archive/plasm-ph/

Physics (since 10/96) index to physics titles/authors get Plasma Physics physics/abstract help Plasma Physics e-Prints are available for the following years: Subject Classes Accelerator Physics ( new recent find Atmospheric and Oceanic Physics ( new recent find Atomic Physics ( new recent find Atomic and Molecular Clusters ( new recent find Biological Physics ( new recent find Chemical Physics ( new recent find Classical Physics ( new recent find Computational Physics ( new recent find Data Analysis, Statistics and Probability ( new recent find Fluid Dynamics ( new recent find General Physics ( new recent find Geophysics ( new recent find History of Physics ( new recent find Instrumentation and Detectors ( new recent find Medical Physics ( new recent find Optics ( new recent find Physics Education ( new recent find Physics and Society ( new recent find Plasma Physics ( new recent find Popular Physics ( new recent find Space Physics ( new recent find Additional: new physics papers received (most recent mailing) recent physics listings current month's physics listings lastupdate of daily changes to physics database (ftp format) some info for physics Links to: arXiv physics find abs

97. McWilliams Plasma Physics Laboratory McWilliams plasma physics Laboratory. Experiments The principal activityof the laboratory is basic experimental plasma physics investigations. http://hal9000.ps.uci.edu/

98. Alfvén Laboratory Research and educational activities focused on laboratory, space, and fusion plasma physics, electron physics, and accelerator technology. News, research, education, and administration. http://www.alfvenlab.kth.se/

In English Välkommen till Alfvénlaboratoriet, KTH , Stockholm. Vår forskning och undervisning rör laboratorie-, rymd-, och fusionsplasmafysik såväl som tillämpad elektrofysik och elektromagnetisk fältteori inklusive antennteori. Forskning Fusionsplasmafysik Labbplasmafysik Rymdplasmafysik Teoretisk elektroteknik ... Tillämpad elektrofysik Utbildning Grundutbildning Kurser Examensarbeten Forskarutbildning ... Gymnasiesamarbete Organisation Avdelningar Fusionsplasmafysik Plasmafysik Teoretisk elektroteknik ... Personal Aktuellt! Kommande seminarier Rosetta fördröjs Sök på våra sidor Interna sidor Tel: 08 790 7704 Fax: 08 24 54 31 Email: alfvenlab@kth.se Karta för besökare Senast uppdaterad 10 januari 2003 av Lars Blomberg

99. Basic Space Plasma Physics Basic Space plasma physics. The second part of the book presents a more theoreticalfoundation of plasma physics, starting from kinetic theory. http://www.mpe.mpg.de/bj/bspp.html

Basic Space Plasma Physics Wolfgang Baumjohann Rudolf A. Treumann This textbook deals with the requirements of space physics. The first part starts with a description of the Earth's plasma environment, followed by a derivation of single particle motions in electromagnetic fields, with applications to the Earth's magnetosphere. Then the origin and effects of collisions and conductivities, formation of the ionosphere, magnetospheric convection and dynamics, and solar wind-magnetosphere coupling are discussed. The second part of the book presents a more theoretical foundation of plasma physics, starting from kinetic theory. Introducing moments of the distribution function permits derivation of the fluid equations, followed by an analysis of fluid boundaries, with the Earth's magnetopause and bow shock as examples. Finally, fluid and kinetic theory are applied to derive the relevant wave modes in plasma. A representative selection of the many space plasma instabilities and relevant aspects of nonlinear theory is given in a companion textbook

100. MPE : Space Plasma Physics Space plasma physics at MPE. We are studying the plasma physics of theaurora with the help of data from the Freja and FAST missions. http://www.mpe.mpg.de/www_plas/plasma.html

MPE Intranet (restricted access) Space Plasma Physics Personnel Research Highlights News ... Related Sites Projects: (external links) ACE SEPICA CLUSTER EQUATOR-S ... Impressum Last Update: Author: Helmut Steinle hcs@mpe.mpg.de Space Plasma Physics at MPE Space Physics of Near-Earth Environment The solar system is comprised of the Sun, the planets, their atmospheres and plasma environs, the small bodies, e.g., comets, down to dust particles, interstellar matter intruding from outside, and the cosmic radiation. At MPE we mainly investigate the plasma physical phenomena in the solar atmosphere, in the Earth's magnetosphere and its boundaries, in interplanetary space, and at comets. For the Sun we make use of the space observatories SOHO and TRACE as well as of the terrestrial observatories in La Palma, Tenerife, and El Leoncito (Argentina). With the four Cluster spacecraft we are at the advent of a new age in magnetospheric physics; in addition, studies of the magnetosphere still benefit from the data of the AMPTE mission (1984-1986) and, more recently, from Equator-S (1997-1998). We are studying the plasma physics of the aurora with the help of data from the Freja and FAST missions. SOHO, ACE, and SAMPEX are measuring the cosmic radiation and the more energetic ions of the solar wind. Our research on comets is, on the one hand, based on optical measurements at Skinakas observatory, on the other hand on X-ray data obtained with ROSAT. Theoretical studies and numerical simulations supplement these data.

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