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Polarization and directional effects in the radiation from plasmas /

"Version: 20240401"--Title page verso.Includes bibliographical references.1. Introduction -- 2. Polarization and directional effects in the radiation of satellites of hydrogenic spectral lines from plasmas and their applications -- 2.1. Satellites under the one-dimensional one-mode monochromatic electric field -- 2.2. Satellites under the one-dimensional two-mode monochromatic electric field -- 2.3. Satellites under the one-dimensional multi-mode monochromatic electric field -- 2.4. Satellites under the elliptically-polarized monochromatic electric field3. Polarization and directional effects in the radiation of satellites of non-hydrogenic spectral lines from plasmas -- 4. Polarization and directional effects in the intra-Stark spectroscopy of plasmas -- 5. Polarization and directional effects in the non-resonant coupling of the monochromatic and quasistatic electric fields in plasmas -- 6. Polarization and directional effects in the anisotropic Stark broadening of hydrogen spectral lines due to the motion of the radiating ions -- 7. Polarization and directional effects in the radiation of plasma-based x-ray lasers8. Polarization and directional effects in the Stark broadening of spectral lines by a relativistic electron beam in magnetic fusion plasmas -- 8.1. The case of the relativistic electron beam -- 8.2. The case of the high energy hydrogen or deuterium beam9. Polarization and directional effects in the Stark broadening of spectral lines in strongly-magnetized plasmas -- 9.1. Remarkable polarization properties of the Stark profiles and of the Stark-Zeeman profiles of the hydrogen Lyman-alpha line -- 9.2. Polarization and directional effects in the Lorentz-Doppler profiles of hydrogen or deuterium lines -- 10. Polarization and directional effects in the laser-induced fluorescence from plasmas and their applications.Full-text restricted to subscribers or individual document purchasers.The most informative way to study laboratory and astrophysical plasmas is by analysing their radiation, specifically the polarization and directional effects in the radiation from plasmas. The book covers various polarization and directional effects in the radiation of satellites of spectral lines from plasmas, in the intra-Stark spectroscopy of plasmas, in the Stark broadening of spectral lines by a high-energy hydrogen or deuterium beam, or by a relativistic electron beam in magnetic fusion plasmas, in the Stark broadening of spectral lines in strongly-magnetized plasmas, in the radiation of plasma-based x-ray lasers, and in the laser-induced fluorescence from plasmas. Part of IOP series.Research physicists and graduate students.Also available in print.Mode of access: World Wide Web.System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.Professor Eugene Oks received his PhD degree from the Moscow Institute of Physics and Technology, and later the highest degree of Doctor of Sciences from the Institute of General Physics of the Academy of Sciences of the USSR by the decision of the Scientific Council led by the Nobel Prize winner, academician A.M. Prokhorov. His research has included atomic and molecular physics, plasma physics, laser physics, astrophysics, and nonlinear dynamics. He has also discovered new research areas such as intra-Stark spectroscopy and quantum chaos and has consequently published over 600 papers and thirteen books on relevant subjects. Professor Oks works at Auburn University and is continuing his research into theoretical atomic and molecular physics, plasma physics, and astrophysics.Title from PDF title page (viewed on May 1, 2024).

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Series Title
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Call Number
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Publisher
: .,
Collation
1 online resource (various pagings) :illustrations (some color).
Language
English
ISBN/ISSN
9780750362856
Classification
530.4/4
Content Type
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Media Type
-
Carrier Type
-
Edition
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Subject(s)
Plasma physics.
SCIENCE / Radiation.
Plasma radiation.
Polarization (Nuclear physics)
Specific Detail Info
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Statement of Responsibility
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