Foundations of modelling of nonequilibrium low-temperature plasmas. Alves, L. L., Bogaerts, A., Guerra, V., & Turner, M. M. Plasma Sources Science and Technology, 27(2):023002, February, 2018. Publisher: IOP Publishing
Foundations of modelling of nonequilibrium low-temperature plasmas [link]Paper  doi  abstract   bibtex   
This work explains the need for plasma models, introduces arguments for choosing the type of model that better fits the purpose of each study, and presents the basics of the most common nonequilibrium low-temperature plasma models and the information available from each one, along with an extensive list of references for complementary in-depth reading. The paper presents the following models, organised according to the level of multi-dimensional description of the plasma: kinetic models, based on either a statistical particle-in-cell/Monte-Carlo approach or the solution to the Boltzmann equation (in the latter case, special focus is given to the description of the electron kinetics); multi-fluid models, based on the solution to the hydrodynamic equations; global (spatially-average) models, based on the solution to the particle and energy rate-balance equations for the main plasma species, usually including a very complete reaction chemistry; mesoscopic models for plasma–surface interaction, adopting either a deterministic approach or a stochastic dynamical Monte-Carlo approach. For each plasma model, the paper puts forward the physics context, introduces the fundamental equations, presents advantages and limitations, also from a numerical perspective, and illustrates its application with some examples. Whenever pertinent, the interconnection between models is also discussed, in view of multi-scale hybrid approaches.
@article{alves2018,
	title = {Foundations of modelling of nonequilibrium low-temperature plasmas},
	volume = {27},
	issn = {0963-0252},
	url = {https://dx.doi.org/10.1088/1361-6595/aaa86d},
	doi = {10.1088/1361-6595/aaa86d},
	abstract = {This work explains the need for plasma models, introduces arguments for choosing the type of model that better fits the purpose of each study, and presents the basics of the most common nonequilibrium low-temperature plasma models and the information available from each one, along with an extensive list of references for complementary in-depth reading. The paper presents the following models, organised according to the level of multi-dimensional description of the plasma: kinetic models, based on either a statistical particle-in-cell/Monte-Carlo approach or the solution to the Boltzmann equation (in the latter case, special focus is given to the description of the electron kinetics); multi-fluid models, based on the solution to the hydrodynamic equations; global (spatially-average) models, based on the solution to the particle and energy rate-balance equations for the main plasma species, usually including a very complete reaction chemistry; mesoscopic models for plasma–surface interaction, adopting either a deterministic approach or a stochastic dynamical Monte-Carlo approach. For each plasma model, the paper puts forward the physics context, introduces the fundamental equations, presents advantages and limitations, also from a numerical perspective, and illustrates its application with some examples. Whenever pertinent, the interconnection between models is also discussed, in view of multi-scale hybrid approaches.},
	language = {en},
	number = {2},
	urldate = {2024-04-24},
	journal = {Plasma Sources Science and Technology},
	author = {Alves, L. L. and Bogaerts, A. and Guerra, V. and Turner, M. M.},
	month = feb,
	year = {2018},
	note = {Publisher: IOP Publishing},
	pages = {023002},
}
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