41. Plasma Physics Group Homepage National Institute of Physics, Univ of the Philippines. Homepage of the plasma physics Group. See about research, facilities and members. http://www.nip.upd.edu.ph/plasma/

Plasma Physics Group National Institute of Physics College of Science University of the Philippines Diliman, Quezon City 1101 Philippines Email: plasma@nip.upd.edu.ph Telefax No: +632 4344227 Contact the webmaster visitors since 12/18/2000 FastCounter by bCentral

42. Science On High-Energy Lasers: From Today To The NIF An overview of science performed with high energy lasers, including five scientific areas (astrophysics and space physics, hydrodynamics, material properties, plasma physics, radiation sources, and radiative properties). http://www.llnl.gov/science_on_lasers/

Science on High-Energy Lasers: From Today to the NIF Facility Definitions Hydrodynamics Material Properties Plasma Physics ... Radiative Properties Richard W. Lee Richard Petrasso Roger W. Falcone To help you find specific subject areas, we have also provided a document map showing all the sections and subsections. Last modified on February 1, 1996 If you have technical questions about this page contact: Richard Lee (dicklee@llnl.gov) and Science on High-Energy Lasers: From Today to the NIF UCRL-ID-119170

43. Radio And Space Plasma Physics Group The Radio and Space plasma physics Group is at the forefront of research into the interaction of planetary environments with the solar wind. http://www.ion.le.ac.uk/

Radio and Space Plasma Physics Group Document last updated Welcome to the Radio and Space Plasma Physics Group The Radio and Space Plasma Physics Group is at the forefront of research into the interaction of planetary environments with the solar wind. The most spectacular evidence of this interaction are the aurora which occur in the regions surrounding both the north and south magnetic poles. To understand these complex interactions, information from a broad range of theoretical and experimental studies is required and the group is active in many national and international collaborations. Experimental studies with spacecraft and ground based facilities are being carried out. The group builds and operates ground based radar facilities including the SPEAR radar currently being constructed on Svalbard and the CUTLASS radars. (The CUTLASS radar in Finland is shown below.) This site contains information about the work of the group and its experimental facilities as well as providing access to both real time and archived data. Use the panel to the left to navigate the site and learn more about the activities of the Radio and Space Plasma Physics Group. Click on the site map button for an alternative method of navigating this site and to see a complete list of the content.

44. Plasma Physics And Controlled Fusion One of the leading international journals on all aspects of plasma physics and controlled nuclear fusion; together with the plasma physics of highly ionized gases and hightemperature collective processes, the journal also covers inertial confinement fusion and astrophysical plasmas, plus fusion technology and diagnostics. http://www.ioppublishing.com/Journals/pp

@import url(http://ej.iop.org/style/nu/EJ.css); Quick guide Site map Athens login IOP login: Password: Create account Alerts Contact us Journals Home ... Help This Journal Editorial information Scope Editorial board Author benefits ... Submit an article Related content Linking to IOP journals IOP Select IOP Physics Reviews IOP journal news ... Latest issue (complete) No 10, October 2005 (L41-L48, 1559-1856) Current volume Number 10, October 2005 Number 9, September 2005 Number 8, August 2005 Number 7, July 2005 Number 6, June 2005 Number 5A, May 2005 Number 5, May 2005 Number 4, April 2005 Number 3, March 2005 Number 2, February 2005 Number 1, January 2005 Journal archive Vol 47, 2005 Vol 46, 2004 Vol 45, 2003 Vol 44, 2002 Vol 43, 2001 Vol 42, 2000 Vol 41, 1999 Vol 40, 1998 Vol 39, 1997 Vol 38, 1996 Vol 37, 1995 Vol 36, 1994 Vol 35, 1993 Vol 34, 1992 Vol 33, 1991 Vol 32, 1990 Vol 31, 1989 Vol 30, 1988 Vol 29, 1987 Vol 28, 1986 Vol 27, 1985 Vol 26, 1984 Vol 25, 1983 Vol 24, 1982 Vol 23, 1981 Vol 22, 1980 Vol 21, 1979 Vol 20, 1978 Vol 19, 1977 Vol 18, 1976 Vol 17, 1975

45. Harold P. Furth Library, Princeton University Hours, catalog, plasma physics literature, internet resources, database resources. http://www.pppl.gov/library

Furth Plasma Physics Library Princeton University Forrestal Campus C-Site Princeton, New Jersey USA 08543-0451 Adriana Popescu, Plasma Physics Librarian e-mail: popescua@princeton.edu Judith E. Shipley, Special Collections Assistant e-mail: jshipley@princeton.edu Furth Plasma Physics Library Hours Monday through Friday, 10:00am - 4:00pm. Access by appointment. Please call (609) 243-3565, preferably 24 hours in advance of visit. The library is open 24 hrs to PPPL users. Driving Instructions and Entrance Procedures Other PU Branch Libraries Hours Plasma Physics Library, Princeton University DOE Science News (unified catalogs of academic, government, and public libraries) Web-based PPLCat Plasma Conferences Plasma Physics E-Journals Searching plasma physics literature ... Library Proxy Server remote access) RefWorks Please send questions, comments, and suggestions to ppllib@princeton.edu

46. Columbia Plasma Physics Laboratory The plasma physics Laboratory was founded in 1961 and is an integral part of the The Internet plasma physics EXperience has simple explanations and http://www.ap.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.

47. FRONTIER SCIENCE RESEARCH CONFERENCE--F S R C-HIGH-ENERGY-DENSITY-PLASMA-PHYSICS High Energy Density plasma physics 2003. Conference Details, General Info on the FSRC, Info on the FSRC Publications, and Tourist Info, California, http://www.fsrc.stefan-university.edu/FSRC-2003/FSRC-HIGH-ENERGY-DENSITY-PLASMA-

Frontier Science Research ConferencesF S R C F S R C USA F S R C ASIA-PACIFIC F S R C EUROPE SITE CONTENTS Gives information on the F S R C: High Energy Density Plasma Physics2003. Conference Details, General Info on the F S R C, Info on the F S R C Publications, and Tourist Info. The F S R C, founded in 1989, brings together representatives, in a particular research field, from major research centers around the world to exchange ideas and approaches, discuss critical issues, critique a field's present status. and point the way toward new avenues in research. Site Contents F S R C Promote and Diffuse First Rate Research Achievements in Science Worldwide ENTER SITE Founded 1989 F S R C Research Trends in HIGH ENERGY DENSITY PLASMA PHYSICS2003 February 10-12,2003, La Jolla, California 92038-2946 Site Design by WEBTRON webmaster

48. UCL Space & Climate Physics Mullard Space Science Laboratory of the University College London. Research and postgraduate teaching in astrophysics, solar physics, plasma physics, climate physics, and detector physics. http://www.mssl.ucl.ac.uk

@import url(css/fonts.css); @import url(css/extras.css); MULLARD SPACE SCIENCE LABORATORY Research Groups Engineering Groups General Information Teaching ... UCL Website Mullard Space Science Laboratory The Mullard Space Science Laboratory is the UK's largest university space research group. We aim to unravel the mysteries of space through research in fields ranging from the Earth's climate to a study of explosive events that occurred at the very limits of the known Universe. Space science is a discipline that demands highly innovative technologies and MSSL has an international reputation for excellence in this area. Science activities are not restricted to the instruments that we produce. Our scientists regularly use other facilities both space-borne and ground-based in order to address the science question at hand. Our research groups are supported by specialist engineers and a broad technology base. Courses are provided on space-science related topics, systems engineering, technology management and project management. This page last modified 7 September, 2005

49. Plasma (physics) - Wikipedia, The Free Encyclopedia In a hot plasma this is small, but may still determine important physics. Introduction to plasma physics a graduate level lecture course given by http://en.wikipedia.org/wiki/Plasma_physics

Plasma (physics) From Wikipedia, the free encyclopedia. (Redirected from Plasma physics This article is about plasma in the sense of an ionized gas. For other uses of the term, such as blood plasma , see plasma (disambiguation) A Plasma lamp , illustrating some of the more complex phenomena of a plasma, including filamentation In physics and chemistry , a plasma is an ionized gas , and is usually considered to be a distinct phase of matter . "Ionized" in this case means that at least one electron has been removed from a significant fraction of the molecules. The free electric charges make the plasma electrically conductive so that it couples strongly to electromagnetic fields . This fourth state of matter was first identified by Sir William Crookes in and dubbed "plasma" by Irving Langmuir in 1928, because it reminded him of a blood plasma Ref Contents Common plasmas Characteristics Plasma scaling Temperatures ... edit Common plasmas A solar coronal mass ejection blasts plasma throughout the Solar System. The highest concentration of plasma in our Solar System is at the Sun. Over 99.999% of the Solar System by volume is plasma. [ Plasmas are the most common phase of matter , comprising more than 99.999% of the visible

50. ICMCT crystal growth, fundamental research, nanoparticles, LMA xray and IR spectrometry, ferrofluids, plasma physics, electronic microscopy, thin layer deposition, quartz, sensors http://icmct.uvt.ro

ICMCT Homepage - Condensed Matter Research Institute Timisoara, Romania Your browser does not support frames. Upgrade. Text adaugat de mine (Dan Luca)

51. Display Journal Journal of plasma physics publishes primary research articles in plasma physics, Basic topics include the fundamental physics of plasmas, ionization, http://journals.cambridge.org/journal_JournalofPlasmaPhysics

Cambridge Journals Online Advanced search CrossRef search Home About CJO ... FAQ Welcome Register now Guest Username Password Athens log in Forgot your password? Browse journals By title By subject Subscribed to Collection manager ... RSS/Atom feeds Register for eTOC alerts today! To ensure you don't miss out on the latest research, register for electronic table of contents (e-TOCs) for journals in your area. Compositio Mathematica - digital archive available to all subscribers! We are delighted to announce that all subscribers will now be able to access a digital archive to all issues of Compositio Mathematica back to 1997! There has never been a better time to subscribe to this prestigious journal. Link Journal information New content alerts Bookmark this journal Free issue Recommend this journal ... Atom feed More information Editorial Board Instructions for contributors Index services Advertising information ... Impact Factor Related links Free Online Sample Free access Journal of Plasma Physics Editor(s): R. Alan Cairns

52. School Of Computing, Mathematical And Information Sciences Computational Mathematics Group. Interests include Acoustics, Bubble dynamics, Diffusion in gels and plasma physics. http://www.it.bton.ac.uk/Research/cmg/

undergraduate postgraduate professional consultancy ... contacts Information about... Faculty of MIS Brighton Business School School of Service Management CENTRIM B.U.R.K.S. (Resource Kit) CMIS Intranet Undergraduate Courses Postgraduate Courses Courses for Working Professionals Consultancy Research Contact Us Search for CMIS Staff University of Brighton Student Intranet Staff Central Computational Mathematics Group School of Computing, Mathematical and Information Sciences, University of Brighton PRINCIPAL STAFF : Dr. Roma Chakrabarti, Dr. Steve Ellacott Dr. Paul Harris , Dr. David Henwood, Mr. Keith Parramore and Dr. William Wilkinson. For further information about staff, look at the CMIS Staff Search CURRENT RESEARCH STUDENTS: David Chappell, Philip Newman The Computational Mathematics Group is involved with a number of on-going research projects. The details of some of these are listed below. The Boundary Element Method Previous research has covered a variety of application areas, notably bubble dynamics. However current activity focuses on acoustics.

53. Stalder Technologies And Research Conducts research and development including plasma physics and related ionized gas physics. http://www.staldertechnologies.com/

Stalder Technologies and Research Consulting and Independent Contracting Services to High Technology Organizations Specializing in the Physical Sciences and Related Disciplines About Us Services Cool Stuff! For additional information, please contact STAR at: Stalder Technologies and Research P. O. Box 7193 Redwood City, CA 94063 Telephone: 650-599-9342 E-Mail: krstalder@staldertechnologies.com Website optimized for IE 4.0 or greater browsers Please report all website comments to: cio@staldertechnologies.com A Greeting from Dr. Stalder (Clicking this button plays a .wav sound file) Worldwide Coverage Rapid Response Short Term or Long Term Confidential

54. Fusion Energy Education Site Princeton plasma physics Laboratory (PPPL), operated by Princeton University for the US Dept. of Energy. This work was performed in part under the auspices http://fusedweb.pppl.gov/

Home Page FusEdWeb Features: 9 Ways to Learn About Fusion Energy (This site will look better if you obtain a frames-capable Web browser.) Search FusEdWeb This Page Last Revised 22-Aug-00. Contact: Robert Heeter, heeter1@llnl.gov Lawrence Livermore National Laboratory (LLNL) operated by the University of California for the U.S. Dept. of Energy Princeton Plasma Physics Laboratory (PPPL) operated by Princeton University for the U.S. Dept. of Energy This work was performed in part under the auspices of the U.S. Department of Energy by University of California Lawrence Livermore National Laboratory under contract No. W-7405-Eng-48.

55. Space Plasma Physics Groups The Space plasma physics Group at Marshall Space Flight Center in Huntsville, The basic physics of moving plasmas, and their interactions with bodies in http://science.nasa.gov/ssl/pad/sppb/

NSSTC Space Science Colloquia Schedule The Space Plasma Physics Group at Marshall Space Flight Center in Huntsville, AL conducts experimental and theoretical research to support the engineering, scientific, and operational activities of the NASA Office of Space Flight and Office of Space Science. Our principal objective is to develop an understanding of the physical processes that control the geospace plasma environment and its interaction with both natural and man-made bodies in space. Our unique emphases are on the plasma that originates in the ionosphere, and its heating in auroral light displays. The heating causes plasma to escape from Earth's gravity, producing a plasma fountain, which in turn has been found to supply plasma to the acceleration regions that generate disruptive space plasma storms. The basic physics of moving plasmas, and their interactions with bodies in space, provide the fundamental basis for our research. last updated: 21September 2002

56. Research Areas The plasma physics group studies the fourth state of matter. Research in plasma physics requires a thorough understanding of many classical disciplines 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.

57. Technology Transfer Web Page Information about research partnerships and business relationships http://pst.pppl.gov/tt/

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58. Plasma Physics, Atomic Physics, And Astrophysics One of Russia s largest institutions for research in physics and technology. It was founded in 1918 and run for several decades by Abram F. Ioffe. http://www.ioffe.rssi.ru/pti_ppap.html

Research areas: high-temperature plasma (tokamak, plasma-wave interaction, diagnostics) low-temperature plasma (gas discharge, plasma technology, MHD-phenomena, dense plasma dynamics, shock waves) supersonic flows and motion of bodies atomic collision processes and neutral particle plasma diagnostics atomic spectroscopy gas-surface interaction (adsorption, desorption, ionization, elementary structures) theory of quasars, neutron stars, and interstellar medium solar physics, comet and cosmic ray physics, gamma- and X-ray astronomy mass-spectrometry techniques Staff: 332 researchers, including 46 Doctors and 182 Candidates of Sciences Division Officers Director: Michael P. Petrov Deputy Director: Andrei D. Lebedev Executive Secretary: Alexei B. Podlaskin

59. National Spherical Torus Experiment NSTX is an experimental fusion device based on the spherical tokamak concept. Built at Princeton plasma physics Laboratory. http://www.pppl.gov/projects/pages/nstx.html

National Spherical Torus Experiment Schematic of the NSTX National Spherical Torus Experiment The National Spherical Torus Experiment (NSTX) is an innovative magnetic fusion device that was constructed by the Princeton Plasma Physics Laboratory (PPPL) in collaboration with the Oak Ridge National Laboratory, Columbia University, and the University of Washington at Seattle. First plasma was obtained on NSTX on Friday, February 12, 1999 at 6:06 p.m. NSTX is being used to study the physics principles of spherically shaped plasmas hot ionized gases in which nuclear fusion will occur under the appropriate conditions of temperature, density, and confinement in a magnetic field. Fusion is the energy source of the Sun and all the stars. Scientists believe it can provide an inexhaustible, safe, and environmentally attractive source of energy on earth. Magnetic fusion experiments use plasmas comprised of one or more of the isotopes of hydrogen. For example, in 1994, PPPL's Tokamak Fusion Test Reactor (TFTR) produced a world-record 10.7 million watts of fusion power from a plasma comprised of equal parts of deuterium and tritium, the fuel mix likely to be used in commercial fusion power reactors. NSTX is a "proof of principle" experiment and therefore employs deuterium plasmas only. If successful it will be followed by similar devices, eventually including a demonstration power reactor, burning deuterium-tritium fuel. NSTX produces a plasma that is shaped like a sphere with a hole through its center, different from the "donut" shaped plasmas of conventional tokamaks. This innovative plasma configuration may have several advantages, a major one being the ability to confine a higher plasma pressure for a given magnetic field strength. Since the amount of fusion power produced is proportional to the square of the plasma pressure, the use of spherically shaped plasmas could allow the development of smaller, more economical fusion reactors. NSTX's attractiveness may be further enhanced by its ability to produce a high "bootstrap" electric current. This self-driven internal plasma current would significantly reduce the power requirements of externally driven plasma currents required to heat and confine the plasma.

60. Microserf Root Web P24 plasma physics Group External Web Server. The Plasma Universe Magnetic Fusion Experiments at Los Alamos. Physics Division at LANL http://fjwsys.lanl.gov/

P-24 Plasma Physics Group External Web Server The Plasma Universe Magnetic Fusion Experiments at Los Alamos Physics Division at LANL Los Alamos National Laboratory Home Page Los Alamos Section of the IEEE NM Section of the American Vacuum Society Maintained by wurden@lanl.gov © 2000 by P-24 Plasma Physics (LANL). All rights reserved. Revised: 15 Feb 2004 16:45:03 -0700

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