A computational analysis of the vibrational levels of molecular oxygen in low-pressure stationary and transient radio-frequency oxygen plasma

Efe Kemaneci; Jean Paul Booth; Pascal Chabert; Jan Van Dijk; Thomas Mussenbrock; Ralf Peter Brinkmann

doi:10.1088/0963-0252/25/2/025025

A computational analysis of the vibrational levels of molecular oxygen in low-pressure stationary and transient radio-frequency oxygen plasma

Efe Kemaneci
, Jean Paul Booth
, Pascal Chabert
, Jan Van Dijk
, Thomas Mussenbrock
, Ralf Peter Brinkmann

Research output: Contribution to journal › Article › peer-review

Abstract

Vibrational levels of molecular oxygen, O₂(v < 42), are investigated in continuous and pulse-modulated low-pressure radio-frequency oxygen plasma with a global modelling approach. The model is benchmarked against a variety of pressure-, power- and time-resolved measurements of several inductive and asymmetric capacitive discharges available in the literature, and a good agreement is obtained. The sensitivity of the model with respect to the vibrational kinetics, the wall reactions and the spatial inhomogeneity of the charged particles are presented. The simulations without the vibrational levels are also shown for the sake of comparison.

Original language	English
Article number	025025
Journal	Plasma Sources Science and Technology
Volume	25
Issue number	2
DOIs	https://doi.org/10.1088/0963-0252/25/2/025025
Publication status	Published - 10 Mar 2016

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title = "A computational analysis of the vibrational levels of molecular oxygen in low-pressure stationary and transient radio-frequency oxygen plasma",

abstract = "Vibrational levels of molecular oxygen, O2(v < 42), are investigated in continuous and pulse-modulated low-pressure radio-frequency oxygen plasma with a global modelling approach. The model is benchmarked against a variety of pressure-, power- and time-resolved measurements of several inductive and asymmetric capacitive discharges available in the literature, and a good agreement is obtained. The sensitivity of the model with respect to the vibrational kinetics, the wall reactions and the spatial inhomogeneity of the charged particles are presented. The simulations without the vibrational levels are also shown for the sake of comparison.",

author = "Efe Kemaneci and Booth, \{Jean Paul\} and Pascal Chabert and \{Van Dijk\}, Jan and Thomas Mussenbrock and Brinkmann, \{Ralf Peter\}",

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T1 - A computational analysis of the vibrational levels of molecular oxygen in low-pressure stationary and transient radio-frequency oxygen plasma

AU - Kemaneci, Efe

AU - Booth, Jean Paul

AU - Chabert, Pascal

AU - Van Dijk, Jan

AU - Mussenbrock, Thomas

AU - Brinkmann, Ralf Peter

PY - 2016/3/10

Y1 - 2016/3/10

N2 - Vibrational levels of molecular oxygen, O2(v < 42), are investigated in continuous and pulse-modulated low-pressure radio-frequency oxygen plasma with a global modelling approach. The model is benchmarked against a variety of pressure-, power- and time-resolved measurements of several inductive and asymmetric capacitive discharges available in the literature, and a good agreement is obtained. The sensitivity of the model with respect to the vibrational kinetics, the wall reactions and the spatial inhomogeneity of the charged particles are presented. The simulations without the vibrational levels are also shown for the sake of comparison.

AB - Vibrational levels of molecular oxygen, O2(v < 42), are investigated in continuous and pulse-modulated low-pressure radio-frequency oxygen plasma with a global modelling approach. The model is benchmarked against a variety of pressure-, power- and time-resolved measurements of several inductive and asymmetric capacitive discharges available in the literature, and a good agreement is obtained. The sensitivity of the model with respect to the vibrational kinetics, the wall reactions and the spatial inhomogeneity of the charged particles are presented. The simulations without the vibrational levels are also shown for the sake of comparison.

UR - https://www.scopus.com/pages/publications/84962276251

U2 - 10.1088/0963-0252/25/2/025025

DO - 10.1088/0963-0252/25/2/025025

M3 - Article

AN - SCOPUS:84962276251

SN - 0963-0252

VL - 25

JO - Plasma Sources Science and Technology

JF - Plasma Sources Science and Technology

IS - 2

M1 - 025025

ER -

A computational analysis of the vibrational levels of molecular oxygen in low-pressure stationary and transient radio-frequency oxygen plasma

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