Titlebook: Complex Plasmas; Scientific Challenge Michael Bonitz,Jose Lopez,Hauke Thomsen Book 2014 Springer International Publishing Switzerland 2014

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J. Baumüller,G. Baumbach,U. Hoffmansemiconductors. Grazing incidence geometry EXAFS is a very effective tool to study the surface layers. Since EXAFS is an element specific sensitive local structural probe, it is advantageous to commonly used structural characterization techniques where there is no long-range crystalline order in mat

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A. Helbig,W. Beckr?ge,P. Schlaake goal is to condense the crucial processes taking place during polymer metallization into a self-consistent simulation scheme which is able to reproduce and predict qualitative changes caused by variations of deposition conditions. The focus of this chapter lies on the discussion of the simulation

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Elke Pahl-Weber,Nikolai Roskammpplications. This chapter provides a brief overview of the current understanding of microplasma physics, and discusses the distinctives of microcavity plasmas with respect to conventional (macroscopic) plasmas. Notable properties of microcavity plasmas include their peak and time-averaged electron d

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Grundlagen eines Stadtmarketingvel microplasma source has allowed non-thermal, atmospheric-pressure plasmas to be stably formed at the surface of aqueous ionic electrolytes and thin polymeric films. Thus, microplasmas can act as a gaseous electrode for electrochemical reactions which is termed “plasma electrochemistry”. Plasma el

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https://doi.org/10.1007/978-3-319-05437-7Complex Plasmas; Dental Applications; Dusty Plasmas; Low Temperature Plasmas; Microcavity Plasmas; Microc

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978-3-319-37587-8Springer International Publishing Switzerland 2014

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