Table of Contents: Chapter 1: Production of C2 Hydrocarbons from Methane Conversion in the Flowing Afterglow of a Dinitrogen Microwave Plasma: Experiments in Modeling (J.C. Legrand & A.M. Diamy, University of Pierre and Marie Curie, France and R. Hrach & V. Hrachova, Charles University, Prague); Chapter 2: Influence of Small Alkaline Additives on Recombination Processes in the Nitrogen Glow Discharge (A.L. Kuranov, I.N. Skoblo, I.E. Suleimenov, & M. O. Chaika Hypersonic System Research Institute of “Leninetz” Holding Company, Russia and Yu E. Scoblo & Yu. Z. Ionikh (St. Petersburg State University, Russia); Chapter 3: In-situ Detection of Higher Silanes in Silane Glow Discharge Plasmas using Photoionization and Time-of-Fight Mass Spectroscopy, (Atsushi Suzuki, Electrotechnical Laboratory, Japan); Chapter 4: Magnetosonic Solitary Waves and Jumps in a Cold Plasma, (I.B Bakholdin, Keldysh Institute of Applied Mathematics, Russia); Chapter 5: Plasma-Wave Instability Under External Fields from a Quantum Mechanical Viewpoint, (O.A.C. Nunes, A.L.A. Fonseca, and R. B. Pereira, University of Brazil); Chapter 6: The Magnetomechanical Effect, (Maria P. Chaika, Victor Yu. Karasev, Alexei I. Eichvald, and Jin Shiguo, St. Petersburg State University, Russia); Chapter 7: Ion Density Measurements Using Quantitative Spectroscopy, (Anders Hedqvist and Jesper Sallander, Royal Institute of Technology, Sweden); Chapter 8: Modeling of NO x, SO2, VOC Removal by Pulsed Coma and Dielectric Barrier Discharges, (R.H. Amirov, E.A. Filimonova, and M.B. Zhelezniak, Russian Academy of Sciences, Russia); Index |