Modeling reactive magnetron sputtering: a survey of different modeling approaches

The paper focuses on providing an insight into the current state of computational modeling regarding reactive magnetron sputtering systems. A detailed compilation of developed models is gathered and grouped into categories based on the phenomena being modeled. The survey covers models developed for...

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Published in	Acta Universitatis Sapientiae. Informatica Vol. 12; no. 1; pp. 112 - 136
Main Authors	Madarász, Rossi Róbert, Kelemen, András, Kádár, Péter
Format	Journal Article
Language	English
Published	Sciendo 01.07.2020 Scientia Publishing House
Subjects	93-10 computer simulation control theory mathematical modeling parameter identification reactive magnetron sputtering
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Abstract	The paper focuses on providing an insight into the current state of computational modeling regarding reactive magnetron sputtering systems. A detailed compilation of developed models is gathered and grouped into categories based on the phenomena being modeled. The survey covers models developed for the analysis of magnetron discharges, particle-surface interactions at the target and the substrate, as well as macroscopic models. Corresponding software packages available online are also presented. After gaining the necessary insight into the current state of research, a list of the most challenging tasks is given, comparing diffierent approaches, that have been used to combat the encountered difficulties. The challenges associated with modeling tasks range from analytical complexity, mathematical know-how used for model approximation and reduction, as well as optimization between computational load and result accuracy. As a conclusion, the future challenges are compiled into a list and a probable direction in modeling is given, that is likely to be further pursued.
AbstractList	The paper focuses on providing an insight into the current state of computational modeling regarding reactive magnetron sputtering systems. A detailed compilation of developed models is gathered and grouped into categories based on the phenomena being modeled. The survey covers models developed for the analysis of magnetron discharges, particle-surface interactions at the target and the substrate, as well as macroscopic models. Corresponding software packages available online are also presented. After gaining the necessary insight into the current state of research, a list of the most challenging tasks is given, comparing diffierent approaches, that have been used to combat the encountered difficulties. The challenges associated with modeling tasks range from analytical complexity, mathematical know-how used for model approximation and reduction, as well as optimization between computational load and result accuracy. As a conclusion, the future challenges are compiled into a list and a probable direction in modeling is given, that is likely to be further pursued. Abstract The paper focuses on providing an insight into the current state of computational modeling regarding reactive magnetron sputtering systems. A detailed compilation of developed models is gathered and grouped into categories based on the phenomena being modeled. The survey covers models developed for the analysis of magnetron discharges, particle-surface interactions at the target and the substrate, as well as macroscopic models. Corresponding software packages available online are also presented. After gaining the necessary insight into the current state of research, a list of the most challenging tasks is given, comparing diffierent approaches, that have been used to combat the encountered difficulties. The challenges associated with modeling tasks range from analytical complexity, mathematical know-how used for model approximation and reduction, as well as optimization between computational load and result accuracy. As a conclusion, the future challenges are compiled into a list and a probable direction in modeling is given, that is likely to be further pursued.
Author	Madarász, Rossi Róbert Kádár, Péter Kelemen, András
Author_xml	– sequence: 1 givenname: Rossi Róbert surname: Madarász fullname: Madarász, Rossi Róbert email: madarasz.rossi@phd.uni-obuda.hu organization: Doctoral School of Applied Informatics and Applied Mathematics, Óbuda University Budapest, Hungary – sequence: 2 givenname: András surname: Kelemen fullname: Kelemen, András email: kandras@ms.sapientia.ro organization: Sapientia Hungarian University of Transylvania, Cluj-Napoca, Romania – sequence: 3 givenname: Péter surname: Kádár fullname: Kádár, Péter email: kadar@uni-obuda.hu organization: Óbuda University, Budapest, Hungary
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Snippet	The paper focuses on providing an insight into the current state of computational modeling regarding reactive magnetron sputtering systems. A detailed... Abstract The paper focuses on providing an insight into the current state of computational modeling regarding reactive magnetron sputtering systems. A detailed...
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SubjectTerms	93-10 computer simulation control theory mathematical modeling parameter identification reactive magnetron sputtering
Title	Modeling reactive magnetron sputtering: a survey of different modeling approaches
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