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Plasma
The word plasma has a Greek root which means to be formed or molded (the word plastic shares this root) and has a few definitions:
In physics and chemistry, plasma (also called an ionized gas) is an energetic state of matter in which some or all of the electrons in the outer atomic orbitals have become separated from the atom. The result is a collection of ions and electrons which are no longer bound to each other. This state of matter was first identified by Sir William Crookes in 1879, and dubbed "plasma" by Irving Langmuir.
Plasma is the fourth state of matter. It is distinct from the three lower-energy phases of matter solid, liquid, and gas. Plasmas are the most common form of matter, comprising more than 99% of the known visible universe. Commonly encountered forms of plasma include the Sun and other stars (which are plasmas heated by nuclear fusion), lit fluorescent lamps, lightning, the Aurora borealis, the solar wind, and interstellar nebulae. A plasma is also generated in front of a spacecraft's heat shield on reentering the atmosphere.
In astrophysical plasmas, Debye screening prevents electric fields from affecting the plasma very much, but the existence of charged particles causes the plasma to generate and be affected by magnetic fields. This can and does cause extremely complex behavior. The dynamics of plasmas interacting with external and self-generated magnetic fields are studied in the academic discipline of magnetohydrodynamics.
There are two broad categories of plasma, hot plasmas and cold plasmas. The Sun is an example of a hot plasma. Full ionization takes place, and the ions and the electrons are in thermal equilibrium. This is what would commonly be known as the "fourth-state of matter". A cold plasma is one where only a small fraction of the atoms in a gas are ionized, and the electrons reach a very high temperature, whereas the ions remain at the ambient temperature. These plasmas can be created by using a very high electric field to accelerate electrons which ionize the atoms. The electric field is either capacitively or inductively coupled into the gas by means of a plasma source. Common applications of cold plasmas include Plasma-Enhanced Chemical Vapor Deposition, Plasma Ion Doping, and Reactive Ion Etching.
The term plasma is generally reserved for a system of charged particles large enough to behave collectively, excluding microscopically small collections of charged particles. The typical characteristics of a plasma are:
- Debye screening lengths that are short compared to the physical size of the plasma.
- Large number of particles within a sphere with a radius of the Debye length.
- Mean time between collisions usually are long when compared to the period of plasma oscillations.
See plasma physics, plasma cosmology, plasma chemistry, and plasma processing for research and development topics.
See also
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Perspectives on Plasmas
Comprehensive and educational coverage of plasma science and technology with site links worldwide.
http://www.plasmas.org/index.html
Plasma Simulation 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
Info from Hurtigs Laboratory
Provides links and material that can be of interest to students and other plasma physicists.
http://www.fusion.kth.se/~hurtig
Plasma Physics Research Center
Plasma Physics Research Center Tehran-Iran
http://pprco.tripod.com
Coalition for Plasma Science
A group of institutions, organizations, and companies joining forces to increase awareness and understanding of plasma science and its many applications and benefits for society.
http://www.plasmacoalition.org/
Theoretical Principles of Plasma Physics and Atomic Physics
Essential facts and formulae.
http://www.plasmaphysics.org.uk
Plasma on the Internet
Plasma-gate. Lists of Plasma Physics servers on the internet. (From WIS Institute).
http://plasma-gate.weizmann.ac.il/PlasmaI.html
Plasma Everywhere
Introduction on plasmas from NASA. Plasmosphere surrounding our world.
http://science.nasa.gov/newhome/headlines/ast07sep99_1.htm
Who is Who in Atomic and Plasma Physics (WWAPP)
Database from Plasma Laboratory at Weizmann Institute of Science, Israel.
http://plasma-gate.weizmann.ac.il/cgi-bin/wwapp
Plasma TV Science
Guide to plasma science used within the plasma television technology. Includes educational resources and links to related information.
http://www.plasmatvscience.org
MATLAB Instruction Modules for Introductory Plasma Physics
Modules to teach single particle motion, dispersion relation, particle simulation and ray-tracing.
http://www.lifelong-learners.com/pla/
Plasma and Fusion Glossary
Frequently used terms in plasmas physics and fusion energy research.
http://fusedweb.pppl.gov/Glossary/glossary.html
NRL Plasma Formulary
Revised Edition. The NRL Plasma Formulary has been the handbook of plasma physicists for the past 20 years. It is available in PostScript, PDF, and TeX formats.
http://wwwppd.nrl.navy.mil/nrlformulary/nrlformulary.html
Plasma Physics and Nuclear Fusion Experiments
List of web sites describing experiments world-wide to study the physics of nuclear fusion by magnetic confinement.
http://www.ipp.mpg.de/~Wolfgang.Suttrop/ppcfsites.html
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