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This workshop was the first one in this series held since the announcement of the formation of cold anti-hydrogen by the ATHENA and ATRAP experiments. Research presented includes transport, collective modes, and the interplay between the two from both a particle and fluid perspective. This work is carried out in different geometries including cylindrical traps and toroidal systems. Research on cold anti-hydrogen is also represented, since accumulation of large numbers of antiprotons and positrons is a necessary precursor to recombination. Finally, several papers describing experiments on the physics of beams widens the scope to include beams and accelerators. The Workshop on Non-Neutral Plasma Physics brings together investigators from diverse areas whose research has the common feature of involving plasmas that have constituent particles with the same sign of charge.
A nonneutral plasma is a many-body collection of charged particles in which there is not overall charge neutrality. Such systems are characterized by intense self-electric fields, and in high-current configurations by intense self-magnetic fields. Nonneutral plasmas, like electrically neutral plasmas, exhibit a broad range of collective properties, such as plasma waves, instabilities, and Debye shielding. Moreover, the intense self fields in a nonneutral plasma can have a large influence on detailed plasma behavior and stability properties.Since the early 1970s, this important area of physics has developed into a diverse and sophisticated subfield of pure and applied plasma physics. Physics of Nonneutral Plasmas is a graduate-level text which covers a broad range of topics related to the fundamental properties and applications of nonneutral plasmas. The subject matter is treated systematically from first principles using a unified theoretical approach, and the emphasis is on the development of basic concepts that illustrate the underlying physical processes. The book includes 138 problems, 143 figures and illustrations, and the results from several classic experiments illustrating fundamental processes in nonneutral plasmas and coherent electromagnetic wave generation by relativistic electrons. Its thorough treatment of the subject gives it broad and lasting appeal to graduate students and researchers in the field.
These proceedings report the latest research in the field of non-neutral plasmas, including basic studies and applications of single component plasmas made from electrons, ions, or antimatter. Specific topics include ultracold plasmas, trapped ions, toroidal plasmas, transport and collective modes in Penning-Malmberg traps, antimatter plasmas and low-energy anti-hydrogen. The topics covered will be of interest to researchers at universities and laboratories working in the fields of plasma physics, atomic physics, and antimatter science.
This workshop was the first one in this series held since the announcement of the formation of cold anti-hydrogen by the ATHENA and ATRAP experiments. Research presented includes transport, collective modes, and the interplay between the two from both a particle and fluid perspective. This work is carried out in different geometries including cylindrical traps and toroidal systems. Research on cold anti-hydrogen is also represented, since accumulation of large numbers of antiprotons and positrons is a necessary precursor to recombination. Finally, several papers describing experiments on the physics of beams widens the scope to include beams and accelerators. The Workshop on Non-Neutral Plasma Physics brings together investigators from diverse areas whose research has the common feature of involving plasmas that have constituent particles with the same sign of charge.
Non-neutral plasmas are clouds of electrons or ions or anti-matter particles contained in a vacuum by magnetic and electric fields. Experiments on these simplest of plasmas give precise tests of basic theories of equilibrium, waves, and cross-field transport. Technical applications include positron beams, mass spectroscopy, quantum computing, and beams for free-electron lasers.