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RESEARCH PRODUCT
Anomalous properties of hot dense nonequilibrium plasmas
Gaetano FerranteMichelangelo ZarconeS. A. Uryupinsubject
PhysicsHistoryElectronPlasmaElliptical polarizationElectromagnetic radiationComputer Science ApplicationsEducationWeibel instabilityTunnel ionizationPhysics::Plasma PhysicsIonizationElectromagnetic electron waveAtomic physicsdescription
A concise overview of a number of anomalous properties of hot dense nonequilibrium plasmas is given. The possibility of quasistationary megagauss magnetic field generation due to Weibel instability is discussed for plasmas created in atom tunnel ionization. The collisionless absorption and reflection of a test electromagnetic wave normally impinging on the plasma with two-temperature bi-maxwellian electron velocity distribution function are studied. Due to the wave magnetic field influence on the electron kinetics in the skin layer the wave absorption and reflection significantly depend on the degree of the electron temperature anisotropy. The linearly polarized impinging wave during reflection transforms into an elliptically polarized one. The problem of transmission of an ultrashort laser pulse through a layer of dense plasma, formed as a result of ionization of a thin foil, is considered. It is shown that the strong photoelectron distribution anisotropy yields an anomalous penetration of the wave field through the foil.
year | journal | country | edition | language |
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2005-01-01 |