81. Ignited Plasma In Tokamaks - The IGNITOR Project A proposed nextstep fusion experiment to study burning plasma physics in a relatively small device. This approach is based on the concept of a tokamak with very strong magnetic field, and is under development by an international team of plasma and fusion physicists. http://www.frascati.enea.it/ignitor/

82. RMKI Department Of Plasma Physics The Department of plasma physics studies phenomena in plasma physics, plasma physics related investigations are done at the TEXTOR tokamak at 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.

83. MainPage Postdoctoral Researcher at Brandeis University. Research interests are computational fluid dynamics, particlesolid and plasma interaction physics, plasma physics, biophysics of membrane proteins. http://people.brandeis.edu/~gennady/

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84. Plasma Physics Department The summary for this English page contains characters that cannot be correctly displayed in this language/character set. http://www.fpl.gpi.ru/

85. Emission Nebulae Part of a site on plasma physics. http://fusedweb.pppl.gov/CPEP/Chart_Pages/5.Plasmas/Nebula/Emission.html

Fusion - Physics of a Fundamental Energy Source Emission Nebulae The Trifid Nebula (There is also a larger rendering.) Photo Credit: David Malin at the Anglo-Australian Observatory ; used with permission - please do not redistribute without permission! (See also the false-color Hubble Telescope image of the Orion Nebula ; this has buttons for text and for either jpeg or gif images. The HII regions (emission nebulae) are so named because they are composed mostly of a plasma of ionized hydrogen (HII) and free electrons. The hydrogen atoms of the interstellar medium are ionized by the ultraviolet radiation from a nearby star or stars. Only very hot stars, typically young stars, have enough radiation in the ultraviolet region at wavelengths necessary to ionize the hydrogen. The excess energy beyond that needed to ionize the hydrogen goes to kinetic energy of the ejected electrons. Eventually, by collision, this energy is shared by other particles in the gas. An equilibrium is established in a typical emission nebula when the temperature equivalent of this kinetic motion is between 7000 K and 20,000 K. For a typical emission nebulae, the density of ions (and electrons) is 1.0E8 to 1.0E10 particles per m^3. As the ions de-excite to lower energy levels, in most cases after recombination of ions with electrons, they emit their characteristic spectral lines. The most prominent of these in the visible spectrum is the red line of hydrogen, giving most emission nebulae a characteristic red glow. There also exist "

86. RPPL Home University of Washington facility with a field reversed configuration (FRC) experiment. http://www.aa.washington.edu/AERP/RPPL/

The Redmond Plasma Physics Laboratory webpage has been moved to a new server. If you are not redirected automatically, follow this link: http://depts.washington.edu/rppl/index.html

87. Center For Space Physics - Welcome Topics researched include space plasma physics, magnetospheric physics, ionospheric physics, atmospheric physics, and planetary and cometary atmospheric studies. http://www.bu.edu/csp/

Boston University Center for Space Physics Welcome About the CSP Personnel Research Projects Education ... CSP Electronic Purchase Order Form Welcome to the Center for Space Physics at Boston University. The Center carries out a wide variety of research in just some of the following fields of space physics including: space plasma physics; magnetospheric physics; ionospheric physics; atmospheric physics; and planetary and cometary atmospheric studies. Students in astronomy, applied physics, and engineering concentrations conduct their research through the Center, making it an active participant in graduate studies. Furthermore, the Center serves as the coordinating mechanism for grant management and proposal development. Aurora as seen by POLAR Astronomy Department Contact Us: 725 Commonwealth Avenue, Room 506 Boston, MA 02215

88. WWAPP: 1432 Entries Database from Plasma Laboratory at Weizmann Institute of Science, Israel. http://plasma-gate.weizmann.ac.il/cgi-bin/wwapp

WWAPP 1432 entries Welcome to the Database. Our goal is to have an up-to-date information on people working in Atomic and Plasma Physics. We would appreciate any comments or suggestions Do not forget to register! Note: Your registration poses NO obligations. All information from this Database may be used for non-profit purposes only. Search by names or key words Browse entire Database Registration Edit your data ... Delete your entry Running version Plasma Laboratory of Weizmann Institute of Science Maintained by Yuri Ralchenko and Evgeny Stambulchik

89. Space Plasma Physics - Particles & Imaging Research Other Space plasma physics WWW Resources. Iowa Space Grant Consortium U of I Physics Astronomy Space Plasma Research Plasma Wave U of I Physics http://www-pi.physics.uiowa.edu/

W elcome to I owa SP Space Plasma Physics This is The University of Iowa , Space Plasma Physics Research Group led by Dr. Louis A. Frank . The research group is situated in Van Allen Hall on The University of Iowa Main Campus in Iowa City Iowa , USA. Van Allen Hall is named after Dr. James A. Van Allen , a leading pioneer in Space Plasma Physics Research. His instruments were the very first flown in space by US rockets in the early days of the space program, including Explorer 1 which was the United States' first successful orbiting satellite. It made measurements that lead to the discovery of the two highly charged particle, or radiation regions which encircle Earth. These were later named in his honor as the Van Allen Radiation Belts Current Active Projects ISTP/ISAS GeoTail Comprehensive Plasma Investigations - CPI ISTP/GGS Polar Visible Imaging Investigations - VII/VIS Past Projects Galileo Mission To Jupiter - Plasma Subsystem - PLS Dynamics Explorer Spin-scan Auroral Imaging - DESAI International Sun-Earth Explorer Observations - LEPEDEA Interplanetary Monitoring Platform Observations - LEPEDEA Archived Data Sets from Past Projects Hawkeye Satellite - LEPEDEA Geotail CPI Polar VIS Galileo PLS Dynamics Explorer SAI ... Search Other Space Plasma Physics WWW Resources Iowa Space Grant Consortium NASA HQ Space Physics Division Miscellaneous Space Plasma Physics links Local IowaSP Site Information What's New (last updated Tue, 02 Aug 2005)

90. AG Aumayr A research group at IAP/TU Wien, Austria. http://www.iap.tuwien.ac.at/www/atomic/

Atomic and Plasma Physics Group of Prof. F. Aumayr Welcome to our homepage: Please select a topic above mail address: Wiedner Hauptstr. 8-10/134, A-1040 Vienna, Austria (click here for directions on how to reach us) telephone: (+43-1) 58801 - 13430 facsimile: (+43-1) 58801 - 13499 e-mail: aumayr@iap.tuwien.ac.at http://www.iap.tuwien.ac.at/www/atomic/ Home - Research Interest About the Group Publications Links ... F. Aumayr Last modified :

91. RAL Planets And Space Plasmas Home Page Space plasma physics at RAL. Plasma, Research fields, People, Space missions with which the Rutherford Appleton Laboratory is or has been involved. http://sspg1.bnsc.rl.ac.uk/

Planets and Magnetospheres at RAL News: 1 Jan 2005 Smart -1 is safely in Lunar orbit. D-CIXS is working perfectly, and will start taking Lunar data at the beginning of Feb 2005. 25 Dec 2004 The Huygens Probe has been released from the Cassini mother craft and is on track for a landing on Titan on 14 Jan 2005 24 Jan 2004 ESA - Mars Express has been inserted safely into Mars Orbit. ASPERA-3 has been turned on and is working well 27 sept 2003 Smart -1 Launched successfully. See the SMART-1 launch page Magnetospheres Planets Our Group has an active instrument program involving a number of missions. We are also involved in theory, simulations, and ground-based observing. Our interests encompass two themes: The Magnetospheres theme includes the processes coupling the energy and matter in the interplanetary medium into the magnetospheres of the Earth and planets. The Planetary theme includes the planets, comets, satellites, smaller bodies and dust in the Solar System, and the extrasolar planets beyond our own System. In each area we are currently looking forward to exciting new missions: Cluster II and IMAGE are producing a wealth of data which will transform the scope of space physics.

92. Www.sciencedirect.com/science/journal/00321028 www.sciencedirect.com/science/journal/07413335 plasma physics Center ISTCentro de Física dos Plasmas. plasma physics Center. Welcome to CFP s webpage. The plasma physics Center at IST is composed by three Groups http://www.sciencedirect.com/science/journal/00321028

93. HBT-EP Tokamak Experiment at the Columbia University plasma physics Laboratory to demonstrate the feasibility of a highbeta tokamak stabilized by a combination of a close-fitting conducting wall, plasma rotation, and active feedback. http://www.seas.columbia.edu/apam/HBT-EP/

[an error occurred while processing this directive] Links: Information Publications and References Recent Presentations News articles Pictures Tools and Resources MDSPlus User's Guide Guide to Data and Analysis Servers Run Report Archives Run Report Submission Form People APAM Faculty APAM Department Research Staff Directory Plasma Physics Graduate Students Program Overview: The HBT-EP tokamak is the fourth toroidal magnetic experiment constructed within the Columbia University Plasma Laboratory . HBT-EP was designed to demonstrate the feasibility of a high-beta tokamak stabilized by a combination of a close-fitting conducting wall, plasma rotation, and active feedback. The specific approach taken by HBT-EP was to investigate the combined use of a close-fitting conducting wall and modular saddle coils for the purpose of significantly extending the tokamak beta limit. HBT-EP is a unique experiment for the investigation of wall-stabilization because it is the only tokamak device built with adjustable walls . HBT-EP is also unique because the vacuum chamber is made from several quartz cylindrical breaks. These allow fast penetration of externally-applied magnetic perturbations. HBT-EP has been able to accelerate magnetic islands to nearly sonic speeds, and the device has been used to access the Troyon normalized beta limit with ohmic heating alone. The specific approach taken in HBT-EP incorporates: a segmented adjustable conducting wall to eliminate fast external kink instabilities a modular saddle-coil set which applies rotating magnetic perturbations to control plasma rotation

94. Wotan.pp.ph.ic.ac.uk/ fusion.org.uk/eps2004/ plasma physics @ Auburn Universityplasma physics home page at Auburn University with links to Space Plasma Laboratory, Fusion Research laboratory, and Plasma Sciences Laboratory. http://wotan.pp.ph.ic.ac.uk/

95. Plasma Physics Explore theoretical and experimental plasma and fusion physics using the latest computational and experimental tools. http://www.physics.auburn.edu/research/plasma.htm

Plasma Physics Plasma physics is concerned with the studies of hot, diffuse gases, where the electrons are dissociated from the atomic nuclei. These plasmas can range in temperature from several thousands to several hundred millions of degrees. Lightning is a natural example of a plasma. Plasma research at Auburn covers a broad range of topics, including both experimental and theoretical work. Click the title above to go to the main plasma physics page, or check out one of the major research groups below: Fusion Energy Research Fusion is a process that combines the atomic nuclei of light elements, like the isotopes of hydrogen called deuterium and tritium, to form heavier elements. It is the same process by which the sun creates energy. In the process of fusing these elements, energy is released which can be captured and used to generate heat and eventually electricity. Auburn faculty and students are actively engaged in experimental, theoretical and computational fusion energy research. Basic Plasma Physics Basic plasma physics research focuses on fundamental process that occur in plasma - such as wave propagation, particle and energy transport, and plasma instabilities. These studies also include the development of new experimental and computational techniques for studying plasmas. Ongoing experiments at Auburn includes investigations of magnetic reconnection, Alfvén waves, dusty plasmas, and plasma rotation.

96. Plasma Physics Group Plasma logo. The Plasma Group in the Department of Physics operates the Madison Symmetric Torus (MST) and Slide show describing plasma physics program http://sprott.physics.wisc.edu/plasma.htm

The Plasma Group in the Department of Physics operates the Madison Symmetric Torus (MST) and carries out related theoretical and experimental work. The research is supported almost entirely by the U.S. Department of Energy Office of Fusion Energy Sciences Plasma Group Office 3290 Chamberlin Hall 1150 University Avenue Madison, WI 53706-1390 Tel: 608-262-3595 Fax: 608-262-7205 Secretary: Linda Jones Faculty and Scientists A. Almagri P. L. Andrew J. D. Callen (also EP D. J. Den Hartog G. Fiksel C. B. Forest ... P. W. Terry Additional Information Description of the Madison Symmetric Torus Recent MST publications RFP bibliography Plasma physics bibliography ... National Fusion Energy Science Web Site This document created and maintained by J. C. Sprott Send comments to sprott@physics.wisc.edu

97. BUBL LINK: Plasma Physics Author Princeton plasma physics Laboratory Subjects nuclear energy, nuclear physics, plasma physics DeweyClass 539 Resource type documents; Institute of http://bubl.ac.uk/link/p/plasmaphysics.htm

BUBL LINK Catalogue of Internet Resources Home Search Subject Menus Countries ... Z Plasma physics Titles Descriptions Fusion Ignition Research Experiment (FIRE) Institute of Physics Publishing Electronic Journals MIT Plasma Science and Fusion Center NASA Microgravity Science Division ... Space Research Institute (IKI) Comments: bubl@bubl.ac.uk Fusion Ignition Research Experiment (FIRE) Information for researchers interested in the use of alpha-dominated plasmas in the design of magnetic fusion systems. Downloadable articles contain the background to the experiments, reviews of US fusion policy, and reports on physics and engineering design considerations. Author: Princeton Plasma Physics Laboratory Subjects: nuclear energy, nuclear physics, plasma physics DeweyClass: Resource type: documents Institute of Physics Publishing Electronic Journals Set of peer reviewed journals in the broad area of physics, with full text access available to members of subscribing institutions. Tables of contents and the full text of featured articles are freely available to all. The electronic journals offer full text with mathematics and graphics, and allow searching, browsing and printing. Some titles, eg Nanotechnology, offer multimedia features such as videos of molecular simulations. Author: Institute of Physics and IOP Publishing Subjects: electronic journal collections, gravity, materials science, nanotechnology, nonlinear science, nuclear physics, optics, particle physics, physics education, physics research, plasma physics, polymers, simulation

98. The FIRE Place A proposed nextstep fusion experiment to study burning plasma physics based on the tokamak concept. It would require about $1.2B to build. The site includes information related to FIRE, its engineering design, related publications and meetings. http://fire.pppl.gov/fire_program.htm

The U. S. has a leadership position in critical sciences due to billion dollar scale domestic facilities at the frontiers of these fields. The Fusion Energy Advisory Committee (FESAC) found that ITER and FIRE are each attractive options for the study of burning plasma science. Exec Summary Updated May 13, 2005 Privacy and Security Notice Contact Webmaster Fusion Ignition Research Experiment (FIRE) Physics and Program Information The Secretary of Energy Advisory Board (SEAB) Task Force on Fusion Energy review of the U. S. fusion program noted that "A necessary next major scientific step is the exploration of the physics of a burning plasma. At the present time only the tokamak is sufficiently advanced as to assure the necessary confinement in such an experiment." The National Research Council Assessment of Fusion Science (FuSAC) Interim Report identified several critical unresolved fusion science issues: (1) turbulence and transport, (2) energy density limits and (3) integrated physics of self-heated plasmas. The goal of FIRE is to address the critical scientific issues of a magnetically confined fusion plasma identified by SEAB and FuSAC within the next decade using the most cost-effective approach. Success in FIRE would serve as a "Stepping Stone" to provide the scientific foundation needed for an attractive fusion energy source as envisioned by the Advanced Reactor Innovation Evaluation Study (ARIES) . FIRE welcomes your input on the Next Major Step in Magnetic Fusion Research. If you are interested in setting up a FIRE discussion session

99. Research Themes - A&A Group by the amalgamation of the Theoretical Astronomy and plasma physics groups, Astrophysics, plasma physics, Cosmology and Dynamics, exploiting areas http://www.astro.gla.ac.uk/research/index.shtml

Main research themes Solar physics Plasma theory Stellar astrophysics Cosmology ... Dynamical astronomy Further details on these research topics can usually be obtained through the home pages of the individuals concerned. See also our recent publications History The Department of Astronomy was born in 1760 with the foundation of the Regius Chair of Astronomy. With the development of astrophysics and convergence of overlapping interests between the Departments of Natural Philosophy and Astronomy, the new Chair of Astrophysics was created in 1984 and the joint Department of Physics and Astronomy in 1986. The Astronomy and Astrophysics group was formed in 1991 by the amalgamation of the Theoretical Astronomy and Plasma Physics groups, the research efforts of which had developed a substantial collaborative element in recent years in the area of Solar and Laboratory Plasma theory and diagnostics. Work in these areas now therefore constitutes the largest single group activity. However, the group has wide-ranging interests in Astronomy, Astrophysics, Plasma Physics, Cosmology and Dynamics, exploiting areas of common expertise (such as mathematical and numerical technique) and collaborating with the Institute of Gravitational Research, Solid State Group and with other University departments, such as Statistics and Aerospace Engineering. Extensive national and international collaborations are also involved, particularly in the area of modelling data from space missions.

100. Sunhelio12.ppl.kyoto-u.ac.jp/ plasma physics Group PUC http://sunhelio12.ppl.kyoto-u.ac.jp/

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