121. Alfven Laboratory :: Front Page 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/

Search Contact School of Electrical Engineering Alfvén Laboratory ... Alfvén Laboratory Introduction Welcome to the Alfvén Laboratory, Royal Institute of Technology (KTH), Stockholm. Our research activities focus on laboratory, space, and fusion plasma physics as well as on applied electrophysics and electromagnetic theory including antenna theory. In the educational programme we give basic courses in electrical circuits and electromagnetic field theory as well as more specialised courses covering a wide range of topics, including antennas, wave propagation, fusion, accelerators, plasma physics, and space physics. Published by: Alfvén Laboratory Infomaster infomaster@alfvenlab.kth.se Last updated: 2005-07-25

122. Cambridge University Press - The Americas Atomic, Molecular, Discharge and plasma physics GroupPage from the University of Strathclyde, Glasgow, corporately held information on the Department of Physics . http://www.cup.org/Journals/JNLSCAT95/pla.html

Dedicated to the advancement of knowledge through publishing and printing Visit our other sites: Cambridge Home United Kingdom Albania Algeria Antigua Argentina Armenia Australia Austria Azerbaijan Bahrain Bangladesh Barbados Belarus Belize Belgium Bhutan Bolivia Bosnia Herzegovina Botswana Brazil Brunei Bulgaria Cameroon Canada Chad Chile China Colombia Costa Rica Cote d'Ivoire Croatia Cuba Cyprus Czech Republic Denmark Dominica Dominican Republic Ecuador El Salvador Egypt Estonia Ethiopia Finland France FYR Macedonia Ghana Georgia Germany Greece Guatemala Guyana Honduras Hong Kong Hungary Iceland India Indonesia Iran Israel Italy Jamaica Japan Jordan Kazakhstan Kenya Kuwait Korea Latvia Lebanon Lithuania Luxembourg Malawi Malaysia Maldives Malta Mauritius Mexico Moldova Mongolia Montserrat Morocco Namibia Nepal Netherlands New Zealand Nicaragua Nigeria Norway Oman Pakistan Paraguay Panama Peru Philippines Poland Portugal Puerto Rico Qatar Republic of Ireland Romania Russia Rwanda Saudia Arabia Senegal Serbia Seychelles Sierra Leone Singapore Slovakia Slovenia Somalia South Africa South Korea Spain Sri Lanka Sudan Sweden Switzerland Syria Taiwan Tanzania Thailand Trinidad Tunisia Turkey Uganda Ukraine United Arab Emirates Uruguay United States of America Uzbekistan Venezuela Vietnam Yemen Yugoslavia Zambia Zimbabwe Book search Book: ISBN, Title, Author

123. Princeton Plasma Physics Laboratory Princeton plasma physics Laboratory. Welcome to the World Wide Web server running on the Unix cluster node w3.pppl.gov. In the following (R) means access http://w3.pppl.gov/

Privacy and Security Notice Princeton Plasma Physics Laboratory Welcome to the World Wide Web server running on the Unix cluster node w3.pppl.gov . In the following "(R)" means access is restricted to PPPL computers. Official Laboratory Web Site Fusion FAQ Theory Department Graduate Program in Plasma Physics ... SciDAC Center For Extended MHD Modeling Information about fusion research US-Japan Workshop on Integrated Modeling 2005 APS Meeting TFTR Physics information The National Spherical Torus Experiment (NSTX) ... PPPL library Computer Documentation The PPPL Beowulf Cluster Scientific Computing at PPPL Other Info Sun answerbooks ... Monthly Time Sheet (R) Other types of servers PPPL's anonymous FTP archives CPPG Home Page NTCC Modules Library Princeton and PPPL directories ... Other useful web servers Questions, comments, suggestions, etc. to webmaster@pppl.gov

124. RLE - Plasma Physics Group The plasma physics Group at MIT s Research Laboratory of Electronics. http://rleweb.mit.edu/groups/g-PLA.HTM

Plasma Physics Group Activities of the Plasma Physics group of the Research Laboratory of Electronics include experimental and theoretical research concerned with fundamental plasma phenomena such as nonlinear interaction and turbulent behavior; theoretical studies of fusion processes; and the development of high-frequency, high-energy, coherent radiation sources. RLE Progress Report Number 142: 1999 Plasma Electrodymanics and Applications (section 12) Thermonuclear Plasmas (section 13) Plasma Wave Interactions: RF Heating and Current Generation Professor Abraham Bers investigates plasma electrodynamics problems related to heating and current drive in magnetically confined plasmas, light-scattering instabilities in laser-plasma interactions of interest to inertial confinement of plasmas, and nonlinear and chaotic multiple wave-particle interaction mechanisms with application to understanding observed ion energization in space plasmas. Topics of study include: the interaction of RF current drive with bootstrap current in tokamaks, a topic of importance to the achievement of steady-state operation in tokamaks; nonlinear and chaotic dynamics in the interaction of ions with two non-colinear waves propagating across the magnetic field of a plasma; the three-dimensional evolution in time of laser-plasma instabilities; and new means of plasma heating and current drive, proposed for use in the National Spherical Torus Experiment.

125. Plasma Physics: Overview 1 The study of plasma physics has been stimulated over the past four decades The areas of plasma physics that have been addressed on highenergy lasers http://www.llnl.gov/science_on_lasers/10PlasPhys/PPh-0_main.html

Plasma Physics: End Overview Interpenetrating Plasmas Plasma Streaming Laser-Plasma Instabilities Future NIF Experiments Plasma Physics Overview The creation of and interaction with plasmas by high-energy lasers has a long history. The study of plasma physics has been stimulated over the past four decades by its close connection with the goal of the creating fusion as an energy source and with astrophysical plasmas of various types. That is, because the luminous matter in the universe is composed almost entirely of plasma, the scientific investigation of plasma is of the utmost importance. The irradiation of a surface with a high-energy laser produces a blow-off plasma that can be quite hot and that contains densities suitable for the excitation of many parametric processes. Hence, high-power lasers represent a convenient way of producing plasmas with which to perform laser-plasma interaction experiments. Furthermore, the NIF will allow us to make wide-ranging and detailed studies of universal plasma conditions, an opportunity, to the best of our knowledge, that will not be afforded on any other facility. The areas of plasma physics that have been addressed on high-energy lasers arise from two independent avenues of research. First, there are studies of the phenomena that are created by the laser interacting with a plasma. This area includes the instabilities enhanced by laser-plasma coupling, such as stimulated Brillouin scattering, stimulated Raman scattering, etc. In the second there are attempts to use the laser to emulate other phenomena occurring in nature. Examples of this are include the study of interpenetrating plasmas and plasma flow in a magnetic field.

126. ETH Institute Of Astronomy The main research areas of the organization include physics of the Sun and stars, radio astronomy, and astrophysical plasma physics. http://www.astro.phys.ethz.ch/

Welcome to I NSTITUTE OF A STRONOMY ETH ZURICH with its two branches City Center Branch ETH Zentrum with emphasis on solar and stellar physics with emphasis on extragalactic astronomy and cosmology 10-Feb-2003 Responsible

127. Plasma Physics @ Auburn University plasma physics home page at Auburn University with links to Space Plasma Laboratory, Fusion Research laboratory, and Plasma Sciences Laboratory. http://www.physics.auburn.edu/~plasma/

Plasma Physics at Auburn University Welcome to the Plasma Physics home page at Auburn University. 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. A neon light is a man-made example. Broadly speaking, plasma physics research can be divided into two branches. One is concerned with understanding natural plasma phenomena. Despite their rarity on Earth, over 99% of the universe is in the plasma state. Earth, with it's high density and low temperature (astrophysically speaking) is an anomaly! Stars, including our Sun, are big balls of hot, dense plasma. Interstellar space is filled with a dilute, relatively cold plasma. Supernova are the plasma remnants of exploded stars. Closer to home, lightning, flames and the aurora are examples of naturally occurring plasmas. The other branch of plasma physics focuses on creating and understanding plasmas for more practical application. Neon and fluorescent lights, lasers, and welding torches are examples of useful man-made plasmas. One of the more far-reaching applications is to use plasmas to create energy. This is the goal of fusion energy research. Current Research @ Auburn Plasma research at Auburn University is an active and vibrant field. The Auburn Physics Department has the largest faculty in the country engaged in plasma research (10 full-time faculty). Our research interests can be loosely classified into the three major groups listed below. However, there is significant overlap and interaction between the groups.

128. Laboratory Laser Energetics Library (LLE) Has works on thermonuclear fusion, laser physics, plasma physics, xray lasers and diagnostics, and applied optics. Special collections include technical reports and selected Department of Energy microfiche. http://www.lib.rochester.edu/lle/

University of Rochester River Campus Libraries UR Libraries A to Z Laboratory Laser Energetics Library (LLE) Ask a Librarian Search Site The LLE library serves the research and administrative information needs of a major federally funded research laboratory and National Laser User's Facility. It includes some 2,000 volumes and fifty journal subscriptions in thermonuclear fusion, laser physics, plasma physics, x-ray lasers and diagnostics, and applied optics. Special collections include technical reports and selected Department of Energy microfiche. It is located at 250 East River Road, University of Rochester, Rochester, NY, 14623. River Campus and other Non-LLE Patrons, Please Read: Use of LLE Library Selected Resources Handbook of Chemistry and Physics Contact the Staff University of Rochester Libraries. Last Updated August 30, 2004 Web Page Statistics Privacy Statement Staff Login

129. East Brunswick Wins Regional Science Bowl® At PPPL Information and picture from the U.S. Department of Energy's Princeton plasma physics Laboratory about the competition and the consecutive threeyear winner, EBHS. http://www.pppl.gov/news/pages/sci_bowl_2002.html

25 February 2002 end of this article.) East Brunswick High Wins Plainsboro, New Jersey U.S. Representative Rush Holt, who represents New Jersey's 12th Congressional District, moderated the final round of the bowl. Congressman Holt is a former Assistant Director of PPPL. The Governor Livingston High School team from Berkeley Heights, New Jersey, and the West Windsor-Plainsboro High School North team from Plainsboro, New Jersey, placed second and third, respectively. Other schools participating included Bensalem High School (Bensalem, PA) Carteret High School (Carteret, NJ), Christian Brothers Academy (Lincroft, NJ), Hopewell Valley Central High School (Pennington, NJ), Montgomery High School (Montgomery, NJ), Neshaminy High School (Neshaminy, PA), Notre Dame High School (Lawrenceville, NJ), Princeton Day School (Princeton, NJ), Princeton High School (Princeton, NJ), Stuart Country Day School (Princeton, NJ), Watchung Hills Regional High School (Warren, NJ), West Windsor-Plainsboro High School South (West Windsor, NJ), and Woodbridge High School (Woodbridge, NJ). The regional competition was sponsored by the U.S. Department of Energy (DOE) and hosted by PPPL. Each team was made up of four students, a student alternate, and a teacher who served as an advisor and coach. The students answered multiple-choice or short-answer questions in biology; chemistry; physics; astronomy; mathematics; and general, earth, and computer sciences.

130. LAPD Plasma Physics Lab UCLA facility conducting basic plasma physics research on the behavior of naturally occurring plasmas, such as the auroral ionosphere, the magnetosphere, the solar wind, the solar corona, and the interstellar medium. http://128.97.43.7/lapd/

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131. About IFS A national center for research in theoretical plasma physics and controlled thermonuclear fusion. http://w3fusion.ph.utexas.edu/ifs/

The Institute for Fusion Studies (IFS) is a national center for research in theoretical plasma physics and controlled thermonuclear fusion. Its mandate is to study magnetic plasma confinement, basic plasma processes and related issues from the viewpoint of theoretical physics. Particular emphasis is placed on fundamental issues of long range significance. The IFS also serves as a center for fusion science information exchange, nationally and internationally, by arranging visitor programs, courses, conferences and workshops. As part of this effort, it is the principal site in the United States for the exchange activities of the US-Japan Joint Institute for Fusion Theory. The IFS has an extensive academic program, involving students, usually as Graduate Research Assistants, and Postdoctoral Fellows. The research being pursued at the IFS is diverse, including for example plasma turbulence, transport theory, kinetic theory, numerical simulation, plasma-boundary interaction and nonlinear plasma dynamics. Much of this work is interdisciplinary, involving such neighboring fields of research as astrophysics, fluid dynamics, statistical mechanics and space physics. IFS scientists regularly collaborate with other Physics Department faculty as well as scientists in other parts of the University. The present staff of the Institute comprises 19 Ph.D. scientists (including physics faculty, research scientists and postdoctoral fellows) and approximately 12 graduate students, in addition to computational scientists and administrative personnel. The IFS actively supports numerous research collaborations with laboratories and universities in the US and other countries.

132. Center For Astrophysics & Space Sciences, UCSD An interdisciplinary research unit for research and graduate study in astronomy, astrophysics, and space sciences. Areas of specialization include highenergy astrophysics, optical and ultraviolet astronomy, infrared astronomy, radio astronomy, theoretical astrophysics, cosmology, solar physics, space plasma physics, interferometry, and astronomical instrumentation. http://casswww.ucsd.edu

University of California, San Diego John P. Gleason, Celestial Images Astronomy for Everyone (Especially Educators) Graduate Study in Astrophysics Press Room ... Directions to CASS The is an interdisciplinary research unit for research and graduate study in astronomy, astrophysics, and space sciences. Areas of specialization include high-energy astrophysics, optical and ultraviolet astronomy, infrared astronomy, radio astronomy, theoretical astrophysics, cosmology, solar physics, space plasma physics, interferometry, and astronomical instrumentation. CASS includes faculty, research staff and students affiliated with UCSD's departments of Physics Chemistry , and Electrical and Computer Engineering Information about CASS Affiliated Departments - [Physics] [Chemistry] [Electrical and Computer Engineering] Related Research Unit - [CalSpace] Research Activities and Instrument Development Technical Capabilities CASS Personnel ... Seminar Schedule for Astrophysics and related subjects Research facilities available to CASS Members: Telescopes - [Keck] [Lick] [Mount Lemmon] For further information about CASS please contact Cheryl Matson in the Director's Office.

133. MFE Experiments In P-24 Plasma Physics Magnetic fusion experimental team in the P24 plasma physics Group at Los Alamos. Details of collaborations with experiments at other facilities. http://wsx.lanl.gov

Magnetic Fusion Experiments at LANL P P lasma Physics MS-E526, Los Alamos, New Mexico · 87545 · USA G. A. Wurden Tom Intrator Z. Wang S. C. Hsu , L. Dorf, C. Ticos, S. Zhang, R. Renneke, M. Kostora, D. Begay, W. Waganaar Magnetized Target Fusion (FRX-L, Pulsed Fusion Power) C-Mod Collaboration MIT (Tokamak Diagnostics) NSTX Collaboration Princeton U (Spherical Tokamak) TCS FRC Collaboration U Washington (Rotating Magnetic Fields) RSX Reconnection Scaling Experiment) FMP (Flowing Magnetized Plasma) P-24 plasma Physics Summer School Educational Programs Nano-Gizmo Workshop 2005 US-Japan Compact Torus Workshop 2004 ... US-Japan Compact Torus Workshop 2005 Descriptions of a variety of plasma research in our group, for Physics Division research highlights (PDF): Magnetized target fusion (MTF) Reconnection Scaling Experiment (RSX) Laser driven shocks Radiological, chemical and biological decontamination using atmospheric pressure plasmas ... Recent Papers Chris Carey's student poster (Powerpoint) wins award at APS DPP meeting in ABQ (Oct. 30, 2003). MFE Team Student Posters and Pictures.

134. Columbia Plasma Physics Laboratory Experimental plasma physics facility, with HBTEP tokamak, Columbia Non-Neutral Torus (CNT), Collisionless Terrella Experiment (CTX) and Columbia Linear Machine (CLM). New York. http://www.apam.columbia.edu/apam/plasma/plasmaintro.html

Columbia Plasma Physics Laboratory Introduction The Plasma Physics Laboratory was founded in 1961 and is an integral part of the Department of Applied Physics and Applied Mathematics . It is an experimental research facility devoted to the study of basic and applied plasma physics in a broad range of applications. Several experimental projects are underway. The Columbia High-Beta Tokamak (HBT) supports the national program to develop controlled fusion energy. The Collisionless Terrella Experiment (CTX) investigates wave induced particle transport in a dipole field optionally enclosed by a field null, with various applications to charged particle propulsion, dipole fusion, and space plasma physics. The Columbia Linear Machine (CLM) studies collisionless plasma instabilities, plasma transport, and active feedback stabilization of plasma instabilities. The Columbia Non-Neutral Torus is a tabletop stellarator which is the first investigation of non-neutral plasmas confined on magnetic surfaces. As a major university research center in controlled fusion research, Columbia's laboratory is very well-equipped with laser and magnetic plasma diagnostics as well as a wide array of computers.

135. Levitated Dipole Experiment Device to expore the physics of plasma confinement in a magnetic dipole field. http://www.psfc.mit.edu/ldx

136. Johns/Sheldon/Webster Elementary Particle Physics Topics Search for the QuarkGluon plasma CP Violation and B Decays Cosmology Cosmological Constant, CMB Spectrum, Early Universe Field Theory Developments in Neutrino physics Highest Energy Cosmic Rays Tests of the Standard Model, and Beyond, With High Energy or High Statistics Data Prospects for Future Accelerator and Non Accelerator Programs http://www.fcp01.vanderbilt.edu/

JSWHEP Menu Home What Is EP Physics? Group Members Recent Publications ... CI Development Related Links CMS Home US CMS Home FOCUS Home Register Article ... JSWHEP Internal Dark Matter? Extra Dimensions? This elementary particle physics (EPP) research group is investigating fundamental questions about the structure and behaviour of the universe. Our work provides information about the weak and strong forces (counterparts to gravity and electromagnetism) and offers sensitive probes for new fundamental phenomena. Two examples are (1) dark matter , a form of matter that has so far escaped direct detection but whose presence has been inferred by its gravitational effects on the motion of galaxies, and (2) extra dimensions in space, which have been posited to exist by string theory. String theory shows significant promise in solving a long standing problem: how to extend Einstein's theory of gravitation into the quantum realm. CMS and FOCUS Experiments in this field are long lived (5-15 years). We are major contributors to two: the FOCUS experiment at the Fermi National Accelerator Laboratory (Fermilab), near Chicago, Illinois, and the

137. Plasma / Fusion Glossary Frequently used terms in plasmas physics and fusion energy research. http://fusedweb.pppl.gov/Glossary/glossary.html

FusEdWeb: Fusion Energy Educational Web Site The Glossary of Plasma Physics and Fusion Energy Research Browse Search Submit an Entry Introduction, Sources and Contributors This Glossary seeks to provide plain-language definitions of over 3600 frequently used technical terms in Plasma Physics (all areas) and Fusion Energy Research. It is intended for everyone with an interest in science, including journalists, middle school and high school students, and their teachers. The glossary database allows users to submit new terms, search for specific terms or browse alphabetic listings. Visitors are encouraged to add terms and definitions. New submissions or modifications will be reviewed by our editors and posted to the database within one week of the submission date. Terms and definitions must not contain any classified information or export-controlled information. The contributor submitting information is solely responsible for the content. Edited by Robert F. Heeter with assistance from: Albert Chou, John Wright , Joshua Jones and the LLNL Science and Technology Education Program Other Relevant Glossaries: Glossary of Solar-Terrestrial Terms (HAO) Glossary of Space Weather Terms NASA Glossary for Magnetosphere/Space Physics General Atomics' Fusion Glossary (Warning: over 800 k download!)

138. ODTU Department Of Physics Department of physics. Established 1960. Offers BSc, Msc, PhD. Fields Solid State, High Energy, plasma, Mathematical, Astrophysics, Atomic and Molecular, Nuclear physics. http://www.physics.metu.edu.tr/

H O M E Courses Research Department ... News Search This Site (Bölümümüze 2004-2005 akademik yýlýnda ÖSS 21.si Burçin Ýçdem'e, bölümümüzü seçtiði için, bölüm baþkanlýðýnca bir laptop hediye edildi.) ÖSYM Duyurusu için lütfen resmi týklayýn Established Offers : BSc. MSc. PhD., Fields : Astrophysics, Atomic and Molecular Physics, High Energy Physics, Mathematical Physics, Nuclear Physics, Plasma Physics, Solid State Physics. For web queries please use For all other queries please visit Info page.

139. Institute Of Physics Devoted to basic research in the fields of physics of atoms, molecules and plasma and solid state physics including surface science. Zagreb, Croatia. http://www.ifs.hr/en/

about the institute research students seminars ... contact For comments on these web pages, email wmaster@ifs.hr

140. High Performance Computing UCLA Plasma Simulation Group Links to papers on ObjectOriented Programming in Fortran 90, Optimization techniques for RISC processors, Parallel Particle-in-Cell Codes, Parallel Computing Tutorial, and Modernization of Fortran Legacy Codes. http://exodus.physics.ucla.edu/high performance computing/high.performance.comp.

On this Page: Web pages Publications The Purpose of High Performance Computing is to develop strategies, algorithms, and techniques to enable effective use of high performance computers for the solution of large scale scientific problems. Appleseed: Macintosh Cluster Object-Oriented Programming in Fortran 90 Optimization techniques for RISC processors ... Modernization of Fortran Legacy Codes V. K. Decyk, C. D. Norton, and B. K. Szymanski, "Fortran 90 'Gotchas' (Parts 1-3)," ACM Fortran Forum, vol. 18, no. 2, p. 22, 1999, vol. 18, no. 3, p. 26, 1999, and vol. 19, no. 1, p. 10, 1999. J. Qiang, R. Ryne, S. Habib, and V. Decyk, "An Object-Oriented Parallel Particle-in-Cell code for Beam Dynamics Simulation in Linear Accelerators," Proc. Supercomputing 99, Portland, OR, Nov. 1999, CD-ROM. V. K. Decyk, D. E. Dauger, and P. R. Kokelaar, "Plasma Physics Calculations on a Parallel Macintosh Cluster," Physica Scripta T84, 85 (2000). V. K. Decyk, C. D. Norton, and B. K. Szymanski, "How to support inheritance and run-time polymorphism in Fortran 90", Computer Physics Communications V. K. Decyk, C. D. Norton, and B. K. Szymanski, "How to Express C++ Concepts in Fortran 90,"

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