TOMANKOVÁ, Kristína, Martin KUBEČKA, Nicolas RIVOLTA, David CORNIL and Adam OBRUSNÍK. Simulation of a hollow-cathode PECVD process in O2/TMDSO for silicon dioxide deposition - Cross-code validation of 2D plasma model and global plasma model. Surface and Coatings Technology. Elsevier, 2023, vol. 474, December, p. 1-14. ISSN 0257-8972. Available from: https://dx.doi.org/10.1016/j.surfcoat.2023.130069. |
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@article{2352297, author = {Tomanková, Kristína and Kubečka, Martin and Rivolta, Nicolas and Cornil, David and Obrusník, Adam}, article_number = {December}, doi = {http://dx.doi.org/10.1016/j.surfcoat.2023.130069}, keywords = {Global plasma model; 2D plasma model; Hollow cathode; PECVD; TMDSO}, language = {eng}, issn = {0257-8972}, journal = {Surface and Coatings Technology}, title = {Simulation of a hollow-cathode PECVD process in O2/TMDSO for silicon dioxide deposition - Cross-code validation of 2D plasma model and global plasma model}, url = {https://doi.org/10.1016/j.surfcoat.2023.130069}, volume = {474}, year = {2023} }
TY - JOUR ID - 2352297 AU - Tomanková, Kristína - Kubečka, Martin - Rivolta, Nicolas - Cornil, David - Obrusník, Adam PY - 2023 TI - Simulation of a hollow-cathode PECVD process in O2/TMDSO for silicon dioxide deposition - Cross-code validation of 2D plasma model and global plasma model JF - Surface and Coatings Technology VL - 474 IS - December SP - 1-14 EP - 1-14 PB - Elsevier SN - 02578972 KW - Global plasma model KW - 2D plasma model KW - Hollow cathode KW - PECVD KW - TMDSO UR - https://doi.org/10.1016/j.surfcoat.2023.130069 N2 - We investigate a hollow-cathode plasma system operating in the mixture of O2 and TMDSO using physics- and chemistry-based numerical simulation. Two simulation strategies relevant for hollow-cathode PECVD are developed and cross-correlated - a global plasma model and a 2D plasma model. As a part of this effort, a plasmakinetic system for O2/TMDSO is proposed, based on an existing system for O2/HMDSO. The two simulation approaches are benchmarked against each other, and their respective advantages and disadvantages are discussed. The models are consequently used to provide insight into the plasma dynamics of the hollow-cathode PECVD system and to understand the plasma chemistry of TMDSO. The paper also identifies the appropriate scaling parameter of the investigated HC-PECVD system, which will be practical for its further development. The results are correlated with experimental observations from literature, finding multiple similarities and consistent behavior. ER -
TOMANKOVÁ, Kristína, Martin KUBEČKA, Nicolas RIVOLTA, David CORNIL and Adam OBRUSNÍK. Simulation of a hollow-cathode PECVD process in O2/TMDSO for silicon dioxide deposition - Cross-code validation of 2D plasma model and global plasma model. \textit{Surface and Coatings Technology}. Elsevier, 2023, vol.~474, December, p.~1-14. ISSN~0257-8972. Available from: https://dx.doi.org/10.1016/j.surfcoat.2023.130069.
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