โ Scribed by M Touzeau; D Pagnon; J Bretagne
No coin nor oath required. For personal study only.
The Optical Emission Spectroscopy technique was used to monitor a magnetron discharge working in an Ar/O 2 mixture and in air. Hysteresis eects and instability, which are frequently observed when working with reactive gases, were clearly seen in the optical spectra. When the discharge power was increased, the atomic oxygen line intensity increased, saturated and then disappeared whilst, at the transition, sputtered material line intensities suddenly increased. In air, nitrogen lines were found to be less sensitive to this transition. The transition between the two regimes of the discharge is due to a change in the composition of surfaces from oxidised to metallic, as conยฎrmed by the analysis of deposited ยฎlms. In parallel with the experiment, a plasma model was developed for the magnetised region of the discharge which predicts the variations of the various plasma species in the Ar/O 2 mixture. This model explains the behaviour of line intensities on the two sides of the transition.
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The thermodynamics and kinetics of the diethylbenzene-benzene transalkylation have been studied in liquid phase over faujasite Y in a batch reactor. The reactions were conducted at several temperatures between 423 and 513 K. The main product of the reaction was ethylbenzene. When the molar ratio of