Plasma And Environmental Physics Current activities, personnel, employment, publications, and staff. http://www.physics.ucla.edu/plasmalab/
CIPS - Plasma & Beams Group plasma and beam research group at the University of Colorado at Boulder, US. http://www-beams.Colorado.EDU/
UCLA Plasma Simulation Group - Home Header. Home. People Alumni Research Code Publication Contact Related. Designed by Caption Digital Media. Webmaster Marika, decyk@captiondm. http://exodus.physics.ucla.edu/
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
U Of I Computational Optical And Discharge Physics Group 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
Extractions: Welcome To The Nonneutral Plasma Group Prior Non-Neutral Plasmas Workshop 2001 - Proceedings information Non-Neutral Plasmas Workshop 7-11 July 2003 Santa Fe, NM Useful FORTRAN Programming Help: SLATEC Common Mathematical Library, including EISPACK, LINPACK, FC, LSEI, WNNLS, SPLP, QUADPACK, DEPAC, FISHPACK, FFTPACK, and PCHIP, with special functions from FNLIB, FUNLIB, FUNPACK, and AMOSLIB.
Extractions: 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).
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
Extractions: 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 20 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.
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
Extractions: 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.
Plasma Sciences Laboratory Auburn University facility studying dusty plasmas, linear instability and planetary ring simulations. http://narn.physics.auburn.edu/
Atmospheric-Pressure Plasma Treatment Of Nonwovens Using Surface Dielectric Barr Extensive technical paper presenting the results of research into a method of hydrophilization, grafting and metal plating of polypropylene nonwovens for hygiene disposables, by using novel types of atmosphericpressure low-temperature plasma sources. Authors M. Simor and others. http://ftp.fi.muni.cz/pub/muni.cz/physics/texts/DCSD/Articles/TANDEC/TANDEC2002.
Michigan Intense Energy Beam Interaction Laboratory--Plasma Physics Investigates the fundamental physics and technology of interactions between beams of electrons, ions, plasma, microwaves, laser light and radio frequency radiation with plasmas, materials, structures, and biological cells. http://www-ners.engin.umich.edu/labs/plasma/
Cookies Required physics of Plasmas is devoted to original contributions to and reviews of the physics of plasmas, including magnetofluid mechanics, kinetic theory and http://pop.aip.org/
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Max-Planck-Institut Für Plasmaphysik Leading German research center concerned with investigating the physical principles underlying a nuclear fusion power plant. Materials at this website are http://www.ipp.mpg.de/eng/
