61. Visiting PPPL Information for visitors and tourists http://www.pppl.gov/about_pppl/pages/visiting_pppl.html

Visiting PPPL The Princeton Plasma Physics Laboratory (PPPL) is located about two miles north of Princeton University's main campus on U.S. Route #1 at the Forrestal Exit. Following are general directions after exiting Route #1 and area-specific maps. For more detailed travel information go to Princeton University's travel information page. Exiting Route #1: Exiting Route #1 traveling south: Take the Forrestal Campus/Sayre Drive Exit. At the stop sign at the end of the exit ramp make a left-hand turn. Go under the overpass. Just past the unmanned kiosk make a left-hand turn on to Stellarator Road and follow it for about a mile until you come to the manned entrance booth. The security person will direct you from here. Exiting Route #1 traveling north: Take the Forrestal Campus/Sayre Drive Exit. At the stop sign at the end of the exit ramp make a right-hand turn. Be sure to watch for traffic on your left. Just past the unmanned kiosk make a left-hand turn on to Stellarator Road and follow it for about a mile until you come to the manned entrance booth. The security person will direct you from here. Government-Issued Photo ID Required for Admittance to PPPL As a federal facility, the Princeton Plasma Physics Laboratory is operating under heightened security measures because of the events of September 11, 2001.

62. Dynamic Of Complex Systems And Plasma Physics Group http://www.cfm.udec.cl/~hastudil/

Esta página usa marcos, pero su explorador no los admite.

63. 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/; davidpace.com;http://www.angelfire.com/il/fisico/;

64. 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 "

65. AG Aumayr A research group at IAP/TU Wien, Austria.Category Science Physics Plasma Groups......Atomic and plasma physics. Group of Prof. F. Aumayr. Welcome to ourhomepage Please select a topic above. mail address Institut für 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 :

66. The FIRE Place A proposed nextstep fusion experiment to study burning plasma physics. The site includes information related to FIRE, its engineering design, related publications and meetings. http://fire.pppl.gov

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 April 9, 2003 Fusion Program News FIRE Physics Program Fusion Library NRC Burning Plasma Assessment ... Privacy and Security Notice Contact Webmaster Search WWW Search fire.pppl.gov (Note: Google will search for items within pdf files on FIRE. Also, Click on "Text Version" in Search Results for fastest view of text inside pdf documents.) Background Information and Reviews of the U. S. and World Fusion Programs Recent News The Fusion Amendment has been included in HR 6 which is being discussed on the floor of the House on April 10, 2003 (See CSPAN). Science Committee marks HR 238. En Bloc amendents to HR 238 details plan for US participation in ITER and provides separate funding for ITER and base program. The bill also calls for a plan to implement FIRE, as a domestic burning plasma experiment, if the construction of ITER is found to be unlikely or infeasible. Summary of HR 238 as approved by House science committee on April2, 2003.Opening statements by

67. Division Of Fusion Plasma Physics - Alfven Laboratory KTH, Division of Fusion plasma physics. Director Prof. Welcome tothe Division of Fusion plasma physics at the Alfvén Laboratory. http://www.fusion.kth.se/

Division of Fusion Plasma Physics Director: Prof. James R. Drake Vice Director: Doc. Einar Tennfors Home Page Search Internal pages Research Electrophysics Fusion Lab Plasma Space Plasma Education Undergraduate Thesis projects (ex-jobb) Graduate Organization Divisions Electrophysics Electromagnetics Fusion ... Email Webmaster In house we have a major fusion experiment, the EXTRAP T2 reversed-field pinch, where most of the experimental research is performed. On this site you will find information about fusion power in general and about current activities in Swedish and international fusion research. Students will find information about courses in fusion and plasma physics and suggestions for thesis work. Please go on for more information about us and fusion The Swedish fusion research is part of the European research effort involving the fusion research centres of the European Union and Switzerland. It is coordinated and partly funded by Euratom Visiting address: Teknikringen 31 Tel: +46 8 790 7704 Fax: +46 8 24 54 31 fusion@kth.se

68. Home Page The HIPAS facility is directed by the UCLA plasma physics Laboratory, and is engaged in the study of the ionosphere through the use of high power radio transmissions. http://www.hipas.alaska.edu/

Home Page To Introduction Page UCLA HIPAS OBSERVATORY (Hi gh P ower A uroral S timulation) Located 25 miles east of Fairbanks, Alaska The HIPAS facility is directed by the UCLA Plasma Physics Laboratory and is engaged in the study of the ionosphere through the use of high power radio transmissions. Current Projects at HIPAS: ELF/VLF (Extremely Low and Very Low Frequency) electromagnetic (EM) generation by the absorption of Radio Frequency (RF) power in the arctic ionosphere including ion cyclotron excitation. LIDAR active NA layer flourescence and monitoring modified by RF ionosphere heating as new communication scheme. Laser breakdown studies - New project Plasma Torch. Incoherent Scatter Radar - New project using 88 ft. diameter antenna at NOAA Gilmore Creek site 34 km SW of HIPAS as the recieving antenna with transmitter at HIPAS. Remote Sensing. Radio Frequency Ionospheric Heater. Feedback Background photo of aurora by Jackie Pau looking east from the HIPAS bunkhouse. 1 min. exposure, f/2.8 on ASA 200 color print film.

69. ICPP 2002 Home Page The 11th International Congress on plasma physics, 2002 The ConferencePresident Professor Robert Dewar Opens the Conference. Note http://www.ise.canberra.edu.au/ICPP2002/

11th International Congress on Plasma Physics, Sydney, 2002 The 11th International Congress on Plasma Physics, 2002 The Conference President Professor Robert Dewar Opens the Conference Note: Change in the Secretary's Fax number to +61 (0)2 9351-7727 Incorporating: 6th Asia Pacific Plasma Theory Conference, Plasma 2002 - 24th AINSE Plasma Science and Technology Conference 6th Japan-Australia Plasma Theory and Computation Workshop. at the Manly Pacific Parkroyal Hotel in Sydney, Australia. 15 to 19 July 2002 The Conference is endorsed by: the Division of Plasma Physics and the Topical Group on Plasma Astrophysics American Physical Society the Japan Society of Plasma Science and Nuclear Fusion Research ICPP2002 thanks the following organisations for their support This Web site is maintained by Andrew Cheetham Last updated: 09 July 2002

70. Radio And Space Plasma Physics Knitting Patterns The Cooperative UK Twin Auroral Sounding System Clanger knitting pattern. http://ion.le.ac.uk/cutlass/clanger.html

Presents BBC CHILDREN'S TELEVISION CLANGERS by Oliver Postgate Follow these instructions to manufacture your very own Clanger. You won't regret it. Perhaps I'll add a picture of mine when I have nothing better to do... Knitting pattern for a Clanger : Wool Bright Pink Double Knitting (2 ozs.) Needles 1 pr No.12 Body Cast on 12 stitches Wool four rows in st.st. Row 5 : Increase in the first and last st. Row 6 : Purl Repeat rows 5 and 6 until there are 44 sts. (row 36) ending on a purl row Now increase each end of every row until there are 54 sts. (row 41) Now increase each end of knit row until there are 70 sts. (row 57) Armholes P.14 cast off 6 P.30 cast off 6 P.14 (row 58) Row 59 : Inc. in first st. K.13 cast on 6 K.30 cast on 6 K.13 inc. in last st. Now inc. at end of K. rows until there are 78 sts. (row 65) Continue no inc. for 2.5 inches. Shape for bottom 1st row : K.18 K.2tog. K.8 K.2tog. K.18 K.2tog. K.8 K.2tog. K.18 2nd row : Purl 3rd row : K.18 K.2tog. K.7 K.2tog. K.16 K.2tog. K.7 K.2tog. K.18 4th row : Purl 5th row : K.18 K.2tog. K.6 K.2tog. K.14 K.2tog. K.6 K.2tog. K.18

71. Microserf Root Web P24 plasma physics Group External Web Server. The Plasma Universe. Maintainedby wurden@lanl.gov Copyright © 2000 by P-24 plasma physics (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 May 2002 13:59:43 -0600

72. Laboratory Plasma Physics - Alfvén Laboratory Science projects plasma oscillations, plasma probes, electron beamplasma interactions, structure and dynamics of weak double layers, theoretical modelling and computer simulation of plasma instabilities. http://www.plasma.kth.se/lab/

Home Page Search Internal pages Research Electrophysics Fusion Lab Plasma Space Plasma Education Undergraduate Thesis (exjobb) Graduate Organization Divisions Electrophysics Electromagnetics Fusion ... Email Webmaster Laboratory Plasma Physics Group leader: Prof. Nils Brenning The research programme is centered around four small-scale experiments in devices where low temperature plasmas are generated by electrical discharges: a triple plasma machine, a plasma gun, a high frequency discharge, and a large tank where different types of discharges can be run. Unsolved problems in basic plasma physics, often connected to problems in space plasma physics, are attacked. Development of diagnostics needed for the measurements is a significant part of the work. Theoretical work and computer simulations are made in connection with the experimental projects to help the interpretation of the results. Engagement in technical applications of plasma physics is expected to increase. Science projects Basic Laboratory Plasma Programme Collisionless heating and anomalous diffusion of electrons Dusty Plasmas Phenomena associated with high currents in low-density plasmas ... Server related information Visiting address: Teknikringen 31 Tel: +46 8 790 7704 Fax: +46 8 24 54 31 Latest update 9 August 2002 by Lars Blomberg

73. UR - Plasma Physics And Fusion plasma physics and Fusion. Prof. Simon Research in plasma physics andfusion is carried out in the Department of Physics and Astronomy http://www.pas.rochester.edu/brochure/plasma.html

Plasma Physics and Fusion Prof. Simon Research in plasma physics and fusion is carried out in the Department of Physics and Astronomy as well as in the Department of Mechanical Engineering and in the Laboratory for Laser Energetics (LLE). The research in this Department is theoretical and primarily concerned with study of plasma phenomena in controlled fusion experiments. Various plasma instabilities arise in these geometries and it is essential to predict their onset and subsequent non-linear behavior. There is also great interest in understanding the results of experiments carried out at LLE or at other fusion laboratories and in predicting the onset of plasma phenomena. There is close collaboration with the physics staff at LLE.

74. GPI Structure Staff Plasma and fusion theory, microwave discharges and technology, beam plasma and plasma diagnostics .Category Science Physics Plasma Institutes......The plasma physics Department (Head Prof. Lev M. Kovrizhnykh) (Deputy Head Dr.Vjacheslav A. Ivanov) the plasma physics Department. Subdivision, , Head. http://www.gpi.ru/cgi-bin/eget_st?s12

75. PPPL: Theory Department http://w3.pppl.gov/theory/

about theory people projects publications about theory people projects publications ... U.S. Department of Energy

76. Applied Physics Department of Applied and plasma physics. plasma physics. The plasma physics groupof this Department has traditionally carried out research into fus ion energy. http://www.physics.usyd.edu.au/plasma/plasma.html

Department of Applied and Plasma Physics The Departments of Applied Physics and Plasma Physics have been joined under the one banner as their research interests have moved closer together. Applied Physics The Applied Physics group of this department undertakes a wide range of tasks which use physics as a means of solving a large number of practical problems. The approach of the Applied group is definitely "hands on". At any one time a large number of experiments are being performed by the staff and students in the group. Here is a brief history of the Applied Physics department. Here is a list of the staff and an outline of many of the projects currently underway. Thin film analysis and deposition. Cathodic arc deposition The optical behaviour of some biological surfaces Electromagnetic Fields in the Community ... Solar Thermal Energy Non Imaging Optics Design of the Olympic Solar Collector Installation Solar Selective Surfaces Evacuated Glazing Crack growth in glass Here is a link to an article by two members of the Applied group about climate change In addition, you can find a calculation kit to

77. 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/

78. Introduction, Columbia Plasma Lab Columbia plasma physics Lab. Introduction. The Plasma Naval Research.Research groups located within the Columbia plasma physics Lab http://www.ap.columbia.edu/apam/plasma/plasmaintro.html

Columbia Plasma Physics Lab Introduction 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 several VAX computers. The VAX systems are networked to for data acquisition which are part of the departmental computer network. In addition to the experimental effort, there is a broad program in theoretical and computational plasma physics, with applications to fusion, space plasmas, and free-electron lasers. Recent research interests of the theory group include magnetohydrodynamic (MHD) equilibrium and stability, transport and the dynamo effect in turbulent plasmas, and optical guiding and sideband instabilities in free-electron lasers. Support for these research programs comes from the U.S. Department of Energy, the National Science Foundation, the National Aeronautics and Space Administration, and the Office of Naval Research. Research groups located within the Columbia Plasma Physics Lab: HBT-EP Tokamak Collisionless Terrella Experiment Free Electron Laser Columbia Linear Machine Go to Department of Applied Physics and Applied Mathematics, Columbia University

79. [ EPS ] Describes the group and gives the group chair's contact information.Category Science Physics Plasma Associations......plasma physics. Unites Society. Collaborates on the Editorial Board of PlasmaPhysics and Controlled Fusion. View the statutes of the Division. http://www.eps.org/divisions/plasmaphysics.html

Plasma Physics Unites European scientists interested in the physics of fully and partially ionized gases. Aims to promote research and teaching in plasma physics and its applications, to facilitate research collaboration and to represent European physicists outside Europe. Coordinates activities with the American Physical Society. Collaborates on the Editorial Board of Plasma Physics and Controlled Fusion. View the statutes of the Division Chair F. Wagner Member IPP-Directorate Greifswald Branch Wendelsteinstr. 1 D-17491 Greifswald, Germany tel: +49 3834 88 2000 fax: +49 3834 88 2009 email: fritz.wagner@ipp.mpg.de Vice Chair J.B. Lister CRPP/EPFL CH-1015 Lausanne, Switzerland

80. Theoretical Plasma Physics Group Research group devoted to theoretical and numerical modeling. University of Alberta, Canada.Category Science Physics Plasma Groups...... http://fermi.phys.ualberta.ca/~myatt/plasma/TPP.html

Theoretical Plasma Physics Homepage Welcome to the Theoretical Plasma Physics group homepage. We are (from left to right) Dr. A Maximov (post doc.), Dr. C Capjack (Professor of Electrical Engineering), I Ourdev (doctoral student), Dr. W Rozmus (group leader and director of the Theoretical Physics Institute), J Myatt (doctoral student), and Dr.V Eliseev (research associate). Current research topics of our plasma group include: Theoretical and numerical modeling of laser driven parametric instabilities. Ultra-short laser pulse plasma interactions. Plasma transport theories. Basic studies of nonlinear plasma physics. Our theoretical studies support inertial confinement fusion experiments. Theoretical studies which are conducted by the members of the group are part of a broad plasma science research program at the University of Alberta. In addition to our theoretical effort this program includes investigations of space plasmas (Department of Physics), laser plasma interaction experiments and numerical simulations, and different industrial plasma applications ( Department of Electrical Engineering Active research provides the basis for exciting graduate programs in plasma sciences in the Departments of Physics and Electrical Engineering.

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