A8: A 3-dimensional kinetic transport and reaction model of atmospheric pressure plasma jets
Principal Investigators: Máté Vass, Thomas Mussenbrock
Team
Vass, Máté (Principal Investigator) |
Mussenbrock, Thomas (Principal Investigator) |
Klich, Maximilian (PostDoc) |
Brinkmann, Ralf Peter (Senior Professor) |
Description
In this project, a 3-dimensional kinetic transport and reaction model is (further) developed, which describes reactive species in the effluent of an atmospheric pressure plasma jet on their way towards the liquid. In particular, ionization waves and their effects on particle transport are taken into account.
Publications
- Electron dynamics of three distinct discharge modes of a cross-field atmospheric pressure plasma jet
M Klich, D Schulenberg, S Wilczek, M Vass, T Bolles, I Korolov, J Schulze, T Mussenbrock, R P Brinkmann
Plasma Sources Science and Technology, 34, 045012 (2025)
Repository: https://rdpcidat.rub.de/node/1153 - Mode Transition Induced by Gas Heating Along the Discharge Channel in Capacitively Coupled Atmospheric Pressure Micro Plasma Jets
D. Schulenberg, M. Vass, M. Klich, Z. Donkó, J. Klotz, N. Bibinov, T. Mussenbrock, J. Schulze
Plasma Chem. Plasma Process. 44, 1217-1235 (2024)
Repository: https://rdpcidat.rub.de/node/726 - Validation of the smooth step model by particle-in-cell/Monte Carlo collisions simulations
M. Klich, J. Löwer, S. Wilczek, T. Mussenbrock, R. P. Brinkmann
Plasma Sources Sci. Technol. 31, 045014 (2022) - Simulation and modeling of radio-frequency atmospheric pressure plasmas in the non-neutral regime
M. Klich, S. Wilczek, Z. Donkó, R. P. Brinkmann
Plasma Sources Sci. Technol. 31, 045003 (2022) - Zero-dimensional and pseudo-one-dimensional models of atmospheric-pressure plasma jets in binary and ternary mixtures of oxygen and nitrogen with helium background
Y. He, P. Preissing, D. Steuer, M. Klich, V. Schulz-von der Gathen, M. Böke, I. Korolov, J. Schulze, V. Guerra, R. P. Brinkmann, E. Kemaneci
Plasma Sources Sci. Technol. 30, 105017 (2021)
Repository: https://rdpcidat.rub.de/node/421 - Ion dynamics in capacitively coupled argon-xenon discharges
M. Klich, S. Wilczek, J. Janssen, R. P. Brinkmann, T. Mussenbrock, J. Trieschmann
Plasma Source. Sci. Technol. 30, 065019 (2021) - Modelling of a miniature microwave driven nitrogen plasma jet and comparison to measurements
M. Klute, E. Kemaneci, H.-E. Porteanu, W. Heinrich, I. Stefanović, P. Awakowicz, R. P. Brinkmann
Plasma Sources Sci. Technol. 30, 065014 (2021) - Electron dynamics in low pressure capacitively coupled radio frequency discharges
S. Wilczek, J. Schulze, R.P. Brinkmann, Z. Donkó, J. Trieschmann, T. Mussenbrock
J. Appl. Phys. 127, 181101 (2020) - Bridging Child-Langmuir and Warren: Exact and approximate solutions for the unipolar sheath of intermediate pressure
S. Naggary, D. Engel, L. Kroll, R. P. Brinkmann
Plasma Sources Sci. Technol. 28, 015003 (2019) - Disparity between current and voltage driven capacitively coupled radio frequency discharges
S. Wilczek, J. Trieschmann, J. Schulze, Z. Donkó, R. P. Brinkmann, T. Mussenbrock
Plasma Sources Sci. Technol. 27, 125010 (2018)
Thesis
- Kai-Philipp Enneking, Master thesis - 12/2018
Untersuchung einer planaren kapazitiven HF-Entladung mit Hilfe des Smooth step Models - Maximilian Klich, PhD thesis - 12/2025
Modellierung und Simulation von Atmosphärendruckplasmen - Laura Kroll, Master thesis - 07/2019
Modellierung und Simulation von Transportprozessen im Plasma-Jet - Tim Bolles, Bachelor thesis - 10/2020
Validierung des Smooth Step Models für ein Plasma mit zwei Ionenspezies mittels Particle-In-Cell Simulation - Lukas Vogelhuber, Bachelor thesis - 06/2020
Elektronen- und Ionenverteilungsfunktionen an der Grenzfläche von kapazitiven Ein- und Zweifrequenz-Entladungen - Fabian Verdaguer, Bachelor thesis - 11/2020
Untersuchung durch unterschiedliche Spannungsformen erzeugter Hochfrequenzplasmen - Natalia Lupyna, Bachelor thesis - 01/2021
Analyse von Feld- und Potentialverteilungen im Plasma-Jet - Maximilian Klich, Bachelor thesis - 09/2017
Untersuchung der Ionendynamik in kapazitiven Argon-Xenon Hochfrequenzentladungen