Experimental results are presented on the generation and dynamics of concentric as well as non-concentric multiple double layers in hot filament type discharge plasma. These results emphasize striking similarities between the generation and dynamics of both types of multiple double layers, i.e. similar potential steps corresponding to the ionization energy in used gas, similar hysteresis cycles in the current-voltage characteristic of the exciting electrode, similar dynamic behaviour, etc. The results show that a common physical mechanism is at the origin of both phenomena, in which electron-neutral impact excitation and ionization reactions play a key role.
In certain experimental conditions, in front of a positively biased electrode immersed into a diffusion plasma, a concentric multiple double layers structure can appear. If the electrode is large or asymmetric (one dimension is larger than the others), this structure appears nonconcentrically, as many spherical luminous structures attached to the electrode. Each of these structure consists of a positive nucleus (an ion-rich plasma) bordered by an electrical double layer. The structures are almost equally distributed on the electrode because of the negative external shell of the double layer.
We report experimental results showing that a discharge plasma, which self-structures as concentric multiple double layers, is capable of evolving towards chaos through a cascade of spatio-temporal sub-harmonic bifurcations when the applied constraint (in the form of voltage applied on a supplementary electrode immersed in the plasma) is gradually increased. By considering that the plasma particles (electrons, ions and neutrals) move on fractal curves, a theoretical model able to explain both the plasma self-structuring and the scenario of evolution to chaos is constructed. The experimental results were found to be in good agreement with those obtained from the theoretical model.
Some electro-optical characteristics of four carbanion monosubstituted triazolium ylids - precursors in obtaining new heterocycle derivatives with pharmaceutical and industrial applications - were evaluated by spectral and quantum-mechanics studies. The physical properties were established for the optimized structures of triazolium ylids using HyperChem 8. The nature of the interactions solute-solvent in the triazolium ylid solutions was established by correlations between the polarity/polarizability characteristics of the solution components and the wavenumbers of the visible band.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.