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Double Layers: Potential Formation And Related Nonlinear Phenomena In Plasmas: Proceedings Of The 5th Symposium
This book deals with modern plasma physics and engineering, focusing on space, laboratory and fusion-oriented plasmas. It is topical and pedagogical in nature.
Double Layers And Other Nonlinear Potential Structures In Plasmas - Proceedings Of The Fourth Symposium
The Fourth Symposium on Double Layers and Other Nonlinear Potential Structures in Plasmas was held in July 1992 in Austria. 86 scientists from all parts of the world attended. The 51 papers that were contributed, in addition to 14 invited lectures, have been compiled in this book. The main topics discussed during the Symposium include experiments, theory, simulation, space and others. The invited speakers concentrated on the various laboratory double layers, theoretical and numerical treatments of double layers and the existence of magnetospheric double layers. The last topic in particular inspired much lively and interesting debate among the participants.
Frontiers in Dusty Plasmas
The study of dusty plasmas is now in a vigorous state of development. Dust and plasma coexist in a vast variety of cosmic environments and their research received a major boost in the early 80's with the Voyager spacecraft observations of peculiar features in the Saturnian ring system (e.g. the radial spokes) which could not be explained purely in gravitational terms. In addition, dust streams were measured by the Galileo spacecraft in the Jovian magnetosphere and charged dust in the earth's mesosphere was detected by a direct rocket experiment. Since then the area has greatly expanded with dedicated laboratory experiments verifying aspects of basic physics of charged dust grains in plasmas....
Plasma Science and Technology
In the early twentieth century, Dr. Irving Langmuir actively studied plasma discharge and surface science. Since then, great progress has been made in the development of applications of discharges and plasmas such as discharge lamps, electric tubes, and arc welding. In relation to studies on space physics and controlled nuclear fusion, plasma physics has greatly advanced. Plasma chemistry has also progressed along with its applications in LSI fabrication technology, the chemical vapor deposition of functional films, and the production of nanomaterials. In the twenty-first century, the further development of applications of plasma physics and plasma chemistry is certainly expected. In this book, 18 chapters on the recent progress in plasma science and technology have been written by active specialists worldwide.
Progress in Fine Particle Plasmas
In the field of plasma physics, plasmas (including charged fine particles) have been actively studied for more than 40 years, and special features of wave phenomena, self-organizations of the particles, potential formations, fluid-like motions of the particles, generations of fine particles in the plasmas, etc. have been investigated. Here, these plasmas are called “fine particle plasmas”, which are also called “dusty plasmas” and “complex plasmas”. This book intends to provide the reader with the recent progress of studies of fine particle plasmas from the viewpoints of wide and interdisciplinary directions, such as self-organized fine particles, Coulomb crystal formation, behaviors of fine particles, their stability, and syntheses of nano-sized particles in reactive plasmas. Further, the phenomena of dense grain particles and the effects of massive neutrinos in galaxy clustering are included.
