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Progress in Ultrafast Intense Laser Science II
This book series addresses a newly emerging interdisciplinary research field, Ultrafast Intense Laser Science, spanning atomic and molecular physics, molecular science, and optical science. Highlights of this second volume include Coulomb explosion and fragmentation of molecules, control of chemical dynamics, high-order harmonic generation, propagation and filamentation, and laser-plasma interaction. All chapters are authored by foremost experts in their fields.
Progress in Ultrafast Intense Laser Science I
This is the first of a series of books on Ultrafast Intense Laser Science, a newly emerging interdisciplinary research field that spans atomic and molecular physics, molecular science, and optical science. It covers intense VUV laser-cluster interaction, resonance and chaos-assisted tunneling, and the effects of the carrier-envelope phase on high-order harmonic generation.
High Energy Density and High Power RF
This is the fifth in a series of workshops focused on high-power RF sources, originally for accelerator applications, but now including other applications as well. These proceedings report on recent progress in high-power klystrons, traveling-wave tubes, other linear beam tubes, fast-wave devices, and supporting technologies.
Physical Review
Publishes papers that report results of research in statistical physics, plasmas, fluids, and related interdisciplinary topics. There are sections on (1) methods of statistical physics, (2) classical fluids, (3) liquid crystals, (4) diffusion-limited aggregation, and dendritic growth, (5) biological physics, (6) plasma physics, (7) physics of beams, (8) classical physics, including nonlinear media, and (9) computational physics.
Atomic Processes in Plasmas
All papers were peer-reviewed for this proceedings volume. The conference focused on atomic physics relevant to plasmas, and plasma science dependent on atomic processes, from either a modeling or diagnostics point of view. Also, an exciting breakthrough discovery was first announced at this conference on a new antihydrogen formation technique. Topics include the relatively mature research areas of atomic structure and collisions, atomic kinetics, laser-produced plasmas, magnetic- and inertial-confinement fusion, Z-pinches, opacities and equation of state, lighting, and astrophysics, as well as the burgeoning areas of warm dense matter simulations and ultracold plasmas used, for example, in the recent formation of antihydrogen.
Dusty Plasmas in the New Millennium
A dusty plasma (or complex plasma) is a plasma (ionized gas) in which relatively massive particulates (dust grains) are embedded. Dusty plasmas occur widely in nature and show great industrial potential. This volume reports on the latest developments in dusty plasma physics, from astrophysical to space to laboratory environments. Theoretical and computer simulation advances cover topics such as linear instabilities, nonlinear wave phenomena, and plasma sheaths. Experimental results deal with exciting areas such as particle coagulation, plasma crystals, plasma voids, and microgravity experiments. Four comprehensive overview papers are presented on dusty plasmas in: astrophysics and cosmology, the solar system, and the ionosphere and its environment, as well as on the structure and dynamics of strongly non-ideal plasmas. In addition, eight topical reviews are included, as well as about 90 short research papers.
Atomic Processes in Plasmas
The APS Topical Conference on Atomic Processes in Plasmas brings together researchers working in atomic physics and in plasma science, emphasizing the strong and synergistic overlap of these fields. The latest developments in atomic physics reported are recent advances in plasma science, such as in magnetic or inertial confinement fusion, Z-pinches, astrophysics, and technical plasma processing.
