Octiv Suite Applications

The Octiv Suite used in Atmospheric applications

Impedans Octiv used in a study demonstrating a simple radio-frequency (RF) power-coupling scheme for a micro atmospheric pressure plasma jet

Abstract

In this paper, the authors demonstrate a simple radio frequency (RF) power-coupling scheme for a micro atmospheric pressure plasma jet (μAPPJ) based on a series LC resonance, with the discharge gap being part of the resonant element. The Impedans Octiv was used in the experiment.

OC02: Impedans Octiv used in a study demonstrating a simple radio-frequency (RF) power-coupling scheme for a micro atmospheric pressure plasma jet (μAPPJ)

The Octiv Suite used in Dusty Plasma applications
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The Octiv Suite used in Plasma Etching applications
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The Octiv Suite used in PECVD applications

Ion flux as an alternative deposition rate parameter

Abstract

The external parameters which define plasma polymerization experiments (RF power and precursor flow rate) are unable to reproduce plasma polymer films by means of transfer between geometrically different reactors. This has been proven through the use of a geometrically varying parallel-plate electrode reactor. With constant RF power; ion flux and power coupling efficiency measurements demonstrate how variable plasma properties are. Manipulation of these parameters has been shown to be a more useful way of defining plasma polymerization processes.

OC01: Ion flux as an alternative deposition rate parameter

The Octiv Suite used in Space Plasma applications
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The Octiv Suite used in Plasma Sputtering applications
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