Numerical Simulation of the Dynamics of RF Capacitive Discharge in Carbon Dioxide

Lisovskiy, Valeriy; Dudin, Stanislav; Shakhnazarian, Amaliya; Platonov, Pavlo; Yegorenkov, Vladimir

doi:10.26565/2312-4334-2024-3-17

East Eur. J. Phys.

2024

DOI: 10.26565/2312-4334-2024-3-17

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Numerical Simulation of the Dynamics of RF Capacitive Discharge in Carbon Dioxide

Valeriy Lisovskiy,

Stanislav Dudin,

Amaliya Shakhnazarian

et al.

Abstract: In this research, the one-dimensional fluid code SIGLO-rf was used to study the internal parameters of RF capacitive discharge in carbon dioxide, focusing mainly on time-averaged and spatio-temporal distributions of discharge parameters. With the help of this code, in the range of distances between electrodes d = 0.04 – 8 cm, RF frequencies f = 3.89 – 67.8 MHz, and values of carbon dioxide pressure p = 0.1 – 9.9 Torr, averaged over the RF period axial profiles of the density of electrons, positive and negative… Show more

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Cited by 2 publications

References 90 publications

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Numerical Simulation of the Behavior of Negative Ions in a High-Frequency Capacitive Discharge in Carbon Dioxide

Lisovskiy,

Dudin,

Shakhnazarian

et al. 2024

Problems of Atomic Science and Technology

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In the present work, the dynamics of axial profiles of negative ions and the degree of electronegativity a = Nn / Ne of different parts of the RF capacitive discharge in carbon dioxide are investigated using the SIGLO-rf fluid code. Time-averaged axial profiles of densities of electrons Ne, positive Np and negative Nn ions are also obtained in a wide range of gas pressures and applied RF voltages. It is shown that at a sufficiently high gas pressure (1 Torr and higher), the quasi-neutral plasma consists predominantly of positive and negative ions. The degree of electroneutrality a is about several tens and decreases with increasing RF voltage. Because of oscillations in the RF electric field, electrons are ejected every half-period from a near-electrode sheath to the sheath near the opposite electrode being the temporary anode. This leads to a significant increase in the degree of electronegativity in the sheath abandoned by the electrons. At low carbon dioxide pressures (below 0.17 Torr), the plasma consists predominantly of electrons and positive ions with a very low negative ion density, and the degree of electronegativity is significantly less than unity.

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Numerical Simulation of the Behavior of Negative Ions in a High-Frequency Capacitive Discharge in Carbon Dioxide

Lisovskiy,

Dudin,

Shakhnazarian

et al. 2024

Problems of Atomic Science and Technology

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Influence of Carbon Dioxide Conversion on the Electron Transport Parameters in the Rf Electric Field

2024

Problems of Atomic Science and Technology

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In this research, the average electron energy, mobility, diffusion coefficient, full attachment and ionization frequencies in a radio-frequency electric field in the reduced field range of E/N = 1…104 Td were calculated using the BOLSIG+ code. Calculations were made for carbon dioxide and CO2/CO/O2 mixtures arising after the plasma conversion of CO2. The influence of the conversion coefficient χ on the electron transport parameters has been revealed. The values of E/N have been determined at which the mixture composition change has a weak effect on the above transport parameters. The conversion coefficient's most pronounced effect on each of the transport parameters is observed in the range of weak combined electric field E/N < 20 Td. In this range, the main process of negative ions formation is the 3-particle attachment of low-energy electrons to oxygen molecules. In the strong electric field E/N > 2000 Td, negative ions are born mainly due to the dissociative attachment of electrons to CO and O2 molecules.

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Numerical Simulation of the Dynamics of RF Capacitive Discharge in Carbon Dioxide

Cited by 2 publications

References 90 publications

Numerical Simulation of the Behavior of Negative Ions in a High-Frequency Capacitive Discharge in Carbon Dioxide

Numerical Simulation of the Behavior of Negative Ions in a High-Frequency Capacitive Discharge in Carbon Dioxide

Influence of Carbon Dioxide Conversion on the Electron Transport Parameters in the Rf Electric Field

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