121. 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.

122. Alfvén Laboratory Researching elctromagnetic theory and applications, including fusion, space and basic plasma physics experiments. Royal Institute of Technology, Stockholm, Sweden. http://www.alfvenlab.kth.se/index-e.html

På svenska KTH ), Stockholm. Our research and educational activities focus on laboratory, space, and fusion plasma physics as well as on applied electrophysics and electromagnetic theory including antenna theory. Research Applied Electrophysics Electromagnetic Theory Fusion Plasma Physics Lab Plasma Physics ... Space Plasma Physics Education Undergraduate programme Courses M Sc thesis projects Graduate study programme Organization Personnel Divisions Applied Electrophysics Electromagnetic Theory ... Search our pages Tel: +46 8 790 7704 Fax: +46 8 24 54 31 Email: alfvenlab@kth.se Map for visitors Latest update 24 March 2004 by Lars Blomberg

123. IPPLM / 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/

I nstitute of Plasma Physic and Laser Microfusion Warsaw, Poland English version Instytut Fizyki Plazmy i Laserowej Mikrosyntezy Warszawa, Polska Wersja polska

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

125. Frontiers In Contemporary Physics II - March 2001 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/

FRONTIERS IN CONTEMPORARY PHYSICS - II A Lecture and Workshop Series at Vanderbilt University Astrophysics, Nuclear, Particle Physics and the Connections March 5-10, 2001 Topics Search for the Quark-Gluon 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 Pedagogical Resources Transparencies, Papers and Links to Related References Additional Links to Reference Material About the Meeting Plenary and Parallel Sessions and Links to Submit or View Talks Overview: The Concept, The Topics, Organizers and Advisers Information You Need / How to Contact Us How to Register and Make Hotel Reservations The building in the center is Benson Science Hall, standing in a grove of Vanderbilt's oldest and most majestic trees. Benson is a composite of two historic structures: Science Hall (1880) and adjacent Old Central (about 1859). Today Old Science and Old Central are connected, creating a single unit that houses the English and history departments. Click here to learn more about Vanderbilt and Nashville.

126. 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 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.

127. 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/

SEMINAR ANNOUNCEMENT Prof dr Kazumi Maki: Giant Nernst effect in Unconventional Density Waves Thursday, May 27th, 2004 about the institute research students seminars ... contact For comments on these web pages, email wmaster@ifs.hr

128. 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,"

129. Plasma And Environmental Physics Top/Reference/Education/Colleges_and_Universities/North_America/United_States/California/University_of_California/Los_Angeles/Research http://www.physics.ucla.edu/plasmalab/

How Do Scientists Plan to Save the Ozone Layer? ASG How Do Scientists Plan to Save the Ozone Layer? ASG

130. The Physics Of IO Report including sections about tidal heating and orbital resonance, plasma torus, magnetic field, current flow and Jupiter's aurora. http://www.yucc.yorku.ca/~troy/io/io.html

IO CONTENTS 3. Plasma Torus 4. Io's Magnetic Field 6. Comparison with Other Satellites 7. Conclusions ... 9. ** Io Animation ** If geological activity exists, there must be some type of a heat source. The small amount of rock detected in Io (and many of the other outer moons) makes radiogenic (heat produced by the decay of radioactive elements) heating unlikely. A paper was published (Stanton Peale pg.9 Satellites of the Outer Planets) just days before the Voyager 1 encounter, suggesting that Io had a hot, molten interior, due to a phenomenon called tidal heating. As it turns out, tidal heating is the main source of heat on Io, but there are other forces contributing to that, including an orbital resonance with Europa and Ganymede, which shall be explored in the next section. Io is not only affected by its close proximity to Jupiter (tidal heating), but it also has an effect on Part of this interaction with Jupiter's magnetosphere has led to a plasma torus being formed around Jupiter at roughly Io's radius, known as the Io Plasma Torus. Io's orbit carries itself through this torus providing further interaction with its tenuous atmosphere, surface and the material in outer space. The following is a table of data pertaining to Io and our moon. Throughout this report, comparisons will be made between the two and why they have followed different evolutionary paths. Some of this data will be referred to later on.

131. CIPS - Plasma & Beams Group plasma and beam research group at the University of Colorado at Boulder, US. http://www-beams.Colorado.EDU/

Beams Home Employment Directory Publications ... Links Introduction Positions Available A phase-space plot of particles in a beam line illustrating halo orbits. Research Areas web people Search Center CU A to Z Beam and Accelerator Physics Fusion Plasma Physics Last modified: 29 April 2004 18:31:49. Maintained by: CIPS webmaster. Site best viewed by Mozilla users. Banner images courtesy of the University of Colorado.

132. U Of I CODP - Projects Projects on numerical plasma simulation, including HPEM code, Monte Carlo Module, and Feature Profile Model, developed at the Computational Optical and Discharge physics Group, University of Illinois. http://uigelz.ece.uiuc.edu/Projects/index.html

Home Projects Publications People ... Help T his page contains links to current and past projects by the Computational Optical and Discharge Physics Group. The presentations are in PDF format. You can obtain Acrobat Reader for PDF files from 2-dimensional Modeling of Pulsed Inductively Coupled Plasmas New! Pramod Subramonium (26 August 2003)] Non-equilibrium Ion and Neutral Transport in Low-pressure Plasma Processing Reactors New! Vivek Vyas (26 August 2003)] Coulomb Crystals in Plasma Processing Reactors New! Vivek Vyas (26 August 2003)] Global Modeling of Singlet-Delta Oxygen Production in Glow Discharges with Application to Oxygen-Iodine Lasers New! D. Shane Stafford (26 August 2003)] Startup Processes in Metal Halide Lamps New! Ananth Bhoj (26 August 2003)] Radiation Trapping in Electrodeless Lamps New! Kapil Rajaraman (26 August 2003)] Harmonic Content of Electron Impact Source Functions in Inductively Coupled Plasmas using an "On-the-Fly" Monte Carlo Technique New! Arvind Sankaran (26 August 2003)] Integrated Modeling: Etching and Post-processing of Porous and Conventional SiO in Fluorocarbon Plasmas New!

133. Racah Inst. Of Physics, HUJI --- Research Groups Hebrew University, RACAH Institute of physics. Astrophysics, Cosmology and Gravitation, Complex Systems, Nonlinear Dynamics, plasma and Laser physics, and Condensed Matter physics. Jerusalem, Israel. http://www.fiz.huji.ac.il/res_gr.html

RACAH Institute of Physics Research Groups Astrophysics, Cosmology and Gravitation Jacob Bekenstein Tom Broadhurst Avishai Dekel Joseph Katz Tsvi Piran Nir Shaviv Complex Systems, Nonlinear Dynamics, Plasma and Laser Physics Miron Amusia Jay Fineberg Michael Finkenthal Benjamin Fraenkel Lazar Friedland Vladimir Karpman Baruch Meerson Mordechai Rokni Yehuda Schwob Shaul Yatsiv Arie Zigler Condensed Matter Physics [Group Web Site] Oded Agam Isaac Balberg Rivka Bauminger Ofer Biham Yohanan Brada Dan Davidov Israel Felner ... Jay Fineberg William Glaberson Yehuda Goldstein Abraham Halperin Rolfe Herber Zwi Kalman Aharon Kapitulnik Noam Kaplan Boris Laikhtman William Low Abraham Many Yohanan Margoninski Oded Millo Israel Nowik Dror Orgad Zvi Ovadyahu Avraham Schiller Eduard Sonin Itzhak Steinberger Meir Weger Yizhak Yacoby Vilen Zevin Few-Body Systems Victor Mandelzweig Hadronic and Nuclear Physics Avraham Gal Ami Leviatan Nissan Zeldes Jacob Burde Eliahu Friedman Amnon Marinov Michael Paul High-Energy Physics, Particle and Field Theory Shmuel Elitzur Amit Giveon Eliezer Rabinovici Sorin Solomon Neural Networks, Statistical Physics and Interdisciplinary Research

134. UCLA Plasma Simulation Group - Home Designed by Caption Digital Media. Webmaster Marika, decyk@captiondm.net. Last Updated December 20, 2002. http://exodus.physics.ucla.edu/

showFlash("flipper.swf", 200, 575); Designed by: Caption Digital Media Webmaster: Marika, decyk@captiondm.net Last Updated: December 20, 2002

135. Pegasus [home] Extremely lowaspect-ratio tokamak experiment at the Department of Engineering physics, University of Wisconsin-Madison. http://plasma.ep.wisc.edu/pegasus/

136. Nonneutral Plasma Group plasma research group at physics Department of the University of California, San Diego. http://sdphca.ucsd.edu/

137. Institute For Plasma Research Experimental and theoretical research in plasma physics. http://www.plasma.ernet.in/

138. Research Experience In Physics & Astronomy For Undergraduates (REU) Research areas in this 10week program for undergraduates include astronomy and astrophysics, biological physics, condensed matter physics, high energy physics, nuclear physics, plasma and laser physics, quantum optics, and physics education. http://www.pas.rochester.edu:80/mainFrame/education/special/specialREU.html

Directors: Priscilla S. Auchincloss and Arie Bodek The Physics and Astronomy Research Experience for Undergraduates (REU) Program is funded by the National Science Foundation to support ten to twelve highly-qualified students to undertake supervised research projects in the Department of Physics and Astronomy, for a period of 10 weeks each summer. Departmental faculty conduct research in diverse experimental and theoretical areas, including Biological Physics Condensed Matter Physics High Energy Physics Nuclear Physics ... Quantum Optics , and Physics Education. Each summer, the Department's research effort involves approximately 30 undergraduate students, in addition to approximately 120 graduate students, 35 postdoctoral research associates, and 30 regular faculty members. Much of the research performed by past undergraduate research assistants has been published in scientific journals. Many students have also presented their work at national conferences and undergraduate research symposia at the University of Rochester. Program : Over the 10-week summer research period, participants attend a series of informal seminars covering research topics as well as others, such as preparing for graduate school. These seminars are intended to foster discussion among REU students and faculty, and to serve as a basis for further social and scientific interaction. Students whose projects are primarily experimental are encouraged to attend mini-courses in electronics and in machine shop techniques. The core research experience takes place in the context of research groups working at the University's research facilities. Students present their work at an informal symposium at the end of the summer. They are encouraged to work with their research advisers toward completion of publications, submission of abstracts, and presentations of their work at professional and student conferences.

139. Plasma Accelerators Physics Group Research of quasistationary high current accelerators (plasma guns) and the corersponding flows and material interaction. http://imaph.bas-net.by/imaph/lpap/LPAPh.htm

Laboratory of Plasma Accelerators Physics Acting Head of the Laboratory: Doctor of Science V.M. Astashynski Institute of Molecular and Atomic Physics F. Skaryna Ave., 70 220072 Minsk Belarus Tel.: +375 17 284 10 65 Fax: +375 17 284 00 30 E-mail: ast@imaph.bas-net.by Home Staff Research Activities ... Publications Of significant interest in terms of high-energy plasma flow obtaining are plasma accelerators (plasma guns) with inherent magnetic field wherein plasma is generated and accelerated due to transformation of electrical energy supplied by an external source, into kinetic energy of plasma flow. For most interesting applications of plasma accelerators (plasma injection in different magnetic traps, micro-particle acceleration, material surface modification, etc.) high plasma parameters with its long duration are required. Quasi-stationary plasma accelerators of a new generation correspond to conditions mentioned . The accelerators operate in the ion current transfer mode and provide ion-drift acceleration of magnetized plasma. The idea of such accelerating systems was proposed by Professor A.I.Morozov from Kurchatov's Institute, Moscow, Russia. Our laboratory is developing and studying different types (gas-discharge and erosive) of quasi-stationary high-current plasma accelerators, in which acceleration of plasma is accompanied by its compression due to interaction between longitudinal components of swept away current and its azimuthal magnetic field. As a result, created at the outlet of the plasma accelerator discharge device is the compression plasma flow with plasma parameters much higher than those in the discharge device.

140. Institute For Research In Electronics And Applied Physics Conducting advanced interdisciplinary research into the physics and application of plasmas and charged particle beams. http://www.ipr.umd.edu/

Student Information: Undergraduate - TREND Research Program Undergraduate Research Fellowship Graduate - Admissions Research Fellowship IREAP Graduate Student Seminar Series Thesis/Dissertation Templates ... ponent" Fall 2003, Vol. 1, No. 2 Formerly known as the "Institute for Plasma Research" A joint Institute of the College of Computer, Mathematical, and Physical Sciences and the A. James Clark School of Engineering Click on picture for further information University of Maryland Directory Search Envision a thermonuclear power plant that does not produce radioactive waste. Consider a new technology that will manufacture microelectronic chips that will be able to process 12 times more information than those currently available. How can we develop diesel engines that are more environmentally friendly? Did you ever wonder how the earth's magnetic field is generated? These ideas are being explored at the University of Maryland's Institute for Research in Electronics and Applied Physics (IREAP). Experimental and theoretical research and computer simulation are pursued in IREAP by 57 research scientists. Faculty members affiliated with IREAP are drawn from a variety of disciplines including the Department of Electrical and Computer Engineering Institute for Physical Science and Technology (IPST) Department of Materials Science and Engineering Department of Physics ... Department of Mathematics , and the Department of Meteorology 2002 US News Map U.S. News and World Report

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