SPIG2018

doi:10.3390/books978-3-03897-851-0

Reprint

Download Flyer

SPIG2018

Edited by

April 2019

288 pages

ISBN978-3-03897-850-3 (Paperback)
ISBN978-3-03897-851-0 (PDF)

https://doi.org/10.3390/books978-3-03897-851-0

Free download (PDF)

This book is a reprint of the Special Issue SPIG2018 that was published in

Physical Sciences

Summary

This Special Issue covers a wide range of topics from fundamental studies to applications of ionized gases. It is dedicated to four topics of interest: 1. ATOMIC COLLISION PROCESSES (electron and photon interactions with atomic particles, heavy particle collisions, swarms, and transport phenomena); 2. PARTICLE AND LASER BEAM INTERACTION WITH SOLIDS (atomic collisions in solids, sputtering and deposition, and laser and plasma interactions with surfaces); 3. LOW TEMPERATURE PLASMAS (plasma spectroscopy and other diagnostic methods, gas discharges, and plasma applications and devices); 4. GENERAL PLASMAS (fusion plasmas, astrophysical plasmas, and collective phenomena). This Special Issue of Atoms will highlight the need for continued research on ionized gas physics in different topics ranging from fundamental studies to applications, and will review current investigations.

Format

Paperback

License

Keywords

strong-field physics; attoscience; bicircular field; high-order harmonic generation; above-threshold ionization; spin-polarized electrons; capacitively-coupled discharge; oxygen; particle-in-cell/Monte Carlo collision; electron heating; secondary electron emission; Large Helical Device (LHD); deuterium experiment; ion temperature of 10 keV; plasma research; spectroscopic study; dispersion interferometer; modified theories of gravity; methods: analytical; methods: numerical; galaxies: elliptical; galaxies: fundamental parameters; non-equilibrium; collisions; radiation; planetary atmospheric entry; laser matter interaction; laser-induced breakdown; plasma; spectroscopy; streak camera; plasma; spectral lines; Stark broadening; oxygen; silicon; spectroscopy; gas discharges; plasma applications; databases; virtual observatory; cross sections; rate coefficients; runway electron; plasma current; fusion plasma; tokamak; glow discharge; argon; nitrogen admixture; discharge voltage; diffuse discharge; constricted discharge; electrical theory of DBDs; QV-plot; instantaneous power; rainbow scattering; positron channeling effect; time-dependent Schrödinger equation; chiral single wall carbon nanotubes; black hole physics; cosmology; quasar spectroscopy; cosmological parameters; ionized gas; broad line region; Rydberg atoms; dynamic instability; control of atomic states; Förster resonance; plasma spectroscopy; Stark broadening; plasma diagnostics; line shape modeling; Zeeman-Doppler broadening; Balmer line series; radiative recombination; photoacoustic; photothermal; inverse problem; thermal memory; minimum volume cell; neural networks; thermal diffusivity; conductivity; linear coefficient of thermal extension; AGN; black holes; gravitational waves; binary black holes; quasars; photodetachment; magnetically confined fusion; neutral beam injection; plasma heating; optical cavity amplification; low-energy electrons; electron–molecule interactions; astrochemistry; laboratory plasma; astrophysical plasma; fusion plasma; lasers; stars; extragalactic objects; spectra; spectroscopy; scaling laws