41. 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)

42. MATLAB Instruction Modules For Introductory Plasma Physics Modules to teach single particle motion, dispersion relation, particle simulation and raytracing. http://www.lifelong-learners.com/pla/

DIR='./';loginPNG='';emptyPNG='';coursesPNG='';swapLoginPNG='# swapimage=IMAGES/menu_login.png;';swapEmptyPNG='swapimage=IMAGES/menu_empty.png;';swapCoursesPNG='swapimage=IMAGES/menu_courses.png;'; Introduction to Plasma Physics with Applications Educational material by Andre Jaun (KTH/Stockholm) and Anders Bondeson (CTH/Gothenburg). Even if the phenomena described in an introductory undergraduate plasma physics course are in principle simple, teaching the subject quickly leads to the use of rather heavy mathematics. Indeed, plasma physics combines electromagnetics, mechanics and fluid dynamics, which are generally considered difficult subjects. Students are nowadays highly computer literate, at the expense however of old fashioned skills in analytical theory. Rather than reducing the scope of the material presented, these modules aim at using their new strengths; in fact, this makes it possible to take the physical descriptions to a higher degree of realism while also familiarizing the students with the limitations intrinsic to numerical methods. Single particle motion in electric and magnetic fields (SPM) Purpose.

43. 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 AND RECENT RESEARCH STUDENTS: Hui Wang, David Chappell 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.

44. MIT Nuclear Engineering Department Home Page Information about the undergraduate and graduate degrees offered by MIT in nuclear engineering and energy systems, plasma physics and fusion technology and radiation science and technology. http://web.mit.edu/ned/www/

Department News INL National University Consortium searching for Director, University Research and Education [ read job description MIT Releases Study on Nuclear Energy's Future [ read article MIT/Tsinghua Collaborate on Pebble-Bed Reactor [ read article Department Events Apr. 28, 2004 David J. Rose Lecture: "Nuclear Power in an Age of Terrorism" Apr. 29, 2004 Prof. N.C. Rasmussen Symposium: "PRA and Decision Making: Successes and Challenges 30 Years after the Rasmussen Study" CANES Events Jun. 21 - Jun. 25, 2004 Summer Course: Materials Reliability in Nuclear Power Systems Jun 28 - Jul 02, 2004 Summer Course: Risk Informed Operational Decision Management Awards Larissa Cottrill, Juliet Leigh Outten, and Mark Haig Khachaturian have been honored by the American Nuclear Society's Graduate scholarship award. Search Options NED: MIT: Click here! 77 Massachusetts Avenue, 24-105, Cambridge, MA 02139-4307, 617.253.5456 ned-www@mit.edu.

45. Cookies Required AIP Conference Proceedings in plasma physics. The Industrial Physicist. See May 04 Issue for Papers from the 2003 Meeting of the APS plasma physics Division. http://pop.aip.org/

What is Scitation? News Contact Us Help Welcome to Scitation. Sign In Register EXIT Home ... SPIN Web Welcome! Sign In Sign up for free Send Feedback ... Learn more about our new features! This service requires a web browser that supports and accepts cookies. You have been redirected to this page for one of the following reasons: You are using a browser that supports cookies, but cookies are disabled. You are using a personal firewall or similar application that rejects cookies even though your browswer is configured to accept them. You are using a browser that does not support cookies. If you require additional assistance setting up your browser to access Scitation, please contact us via e-mail at onlinehelp@aip.org , or by phone (toll-free in the U.S. and Canada) at 1-800-874-6383. How does this system use cookies? In this system, cookies are used in the access control software (login, logoff) to enforce the time-out mechanism (no activity for 15 minutes and a session is automatically terminated). What are cookies exactly? Welcome to Scitation If you encounter any problems, please send us

46. 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

47. 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/

48. Fusion Energy Education Site US Dept. of Energy. Princeton plasma physics Laboratory (PPPL), operated by Princeton University for the US Dept. of Energy. This 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.

49. REDIRECT A fusion research facility (a tokamak) of the Academy of Sciences of The Czech Republic, Institute of plasma physics. http://www.ipp.cas.cz/WWW/

50. Space Plasma Physics - Particles & Imaging Research UI Logo, Welcome to IowaSP, OpenVMS. Space plasma physics Particles Imaging Research Group. Other Space plasma physics WWW Resources. 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 Galileo Mission To Jupiter - Plasma Subsystem - PLS ISTP/ISAS GeoTail Comprehensive Plasma Investigations - CPI ISTP/GGS Polar Visible Imaging Investigations - VII/VIS Past Projects 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 Galileo PLS Geotail CPI Polar VIS 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 Fri, 10 Oct 2003)

51. 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 :

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

here to view non-frame page

53. Division Of Plasma Physics - Alfvén Laboratory Space Laboratory plasma physics at the Royal Institute of Technology, Stockholm, Sweden. Division of plasma physics. Director Prof. http://www.plasma.kth.se/

Home Page Search Internal pages Research Electrophysics Fusion Lab Plasma Space Plasma Education Undergraduate Thesis (exjobb) Graduate Organization Divisions Electrophysics Electromagnetics Fusion ... Email Webmaster Division of Plasma Physics Director: Prof. Nils Brenning Vice Director: Prof. Göran Marklund The research profits from a fruitful combination of both laboratory experiments and space experiments as well as theory and numerical simulation. It is carried out in two research groups, the Laboratory Plasma Group and the Space Plasma Group . To ensure good contact between theory and experiments, theorists are included in each of the Laboratory and Space Plasma groups and not in a separate theory group. Lab Plasma Group Space Plasma Group Publications Presentations ... Server related information Visiting address: Teknikringen 31 Tel: +46 8 790 7704 Fax: +46 8 24 54 31 Latest update 11 March 2002 by Lars Blomberg

54. 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.

55. Space Plasma Physics - Alfvén Laboratory Space plasma physics. Group leader Prof. Göran Marklund. The research programme is characterized by an intense international collaboration http://www.plasma.kth.se/space/

Home Page Search Internal pages Research Electrophysics Fusion Lab Plasma Space Plasma Education Undergraduate Thesis (exjobb) Graduate Organization Divisions Electrophysics Electromagnetics Fusion ... Email Webmaster Space Plasma Physics Group leader: Prof. Göran Marklund The research programme is characterized by an intense international collaboration and by a fruitful interaction between space experiments and theoretical research. Space experiments, with instruments developed for in situ measurements of electric fields, magnetic fields, density and temperature, are carried out through participation on rocket and satellite missions within the NASA and ESA programmes, and within the Swedish national programme. To date the group has participated on more than 25 sounding rocket experiments and half a dozen satellite missions such as the successful Swedish Viking, Freja and Astrid-2 satellites. The current space instrumentation and research programme includes participation on the three ESA missions Cluster, Rosetta, and SMART-1. Future projects where we have an interest to participate include MMS, BepiColombo, and Solar Orbiter. Current conditions in geospace Solar X-rays: Geomagnetic Field: Hardware projects Currently in operation Ørsted Cluster Scandinavian Data Centre (SDC) Champ ... Rosetta Upcoming BepiColombo In post-flight analysis phase Viking Viking V1 Electric Field Data Freja Freja Data Summary Plots ... Astrid-2 Data Summary Plots Science projects Investigations of the auroral phenomenon The active auroral ionosphere Study of magnetospheric electric fields and currents Satellite exploration of the solar wind - magnetosphere interaction region ... Server related information Visiting address: Teknikringen 31 Tel: +46 8 790 7704 Fax: +46 8 24 54 31

56. Davidpace.com | Not Quite Ready For Primetime Graduate student in physics at UCLA. Current research involves experimental plasma physics in the UCLA Tokamak Laboratory. http://www.davidpace.com

davidpace.com;http://www.angelfire.com/il/fisico/index.htm; davidpace.com;http://www.angelfire.com/il/fisico/index.htm;

57. 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, 1012 Feb 2003 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. SIT===== Site Contents To 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

58. Plasma Physics Group Homepage The homepage of the plasma physics Group. Learn about our research, facilities and members. plasma physics Group National Institute 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

59. Research Areas plasma physics at WVU. The plasma physics group studies the fourth state of 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.

60. 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 "

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