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Ion-diffusion losses and j / p 2 -scaling of hollow-cathode effect in DC discharges with parallel-plate cathode configuration. / Kudryavtsev, A.; Eliseev, S.I.; Yuan, C.
в: Physics of Plasmas, Том 31, № 10, 01.10.2024.Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование
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TY - JOUR
T1 - Ion-diffusion losses and j / p 2 -scaling of hollow-cathode effect in DC discharges with parallel-plate cathode configuration
AU - Kudryavtsev, A.
AU - Eliseev, S.I.
AU - Yuan, C.
N1 - Export Date: 21 October 2024 CODEN: PHPAE Адрес для корреспонденции: Eliseev, S.I.; Physics Department, Russian Federation; эл. почта: step.eliseev@yandex.ru
PY - 2024/10/1
Y1 - 2024/10/1
N2 - A simple analytical model of a hollow cathode effect in a direct-current (DC) discharge with parallel-plate cathode configuration is presented. The model is based on the empirical formulation of non-local ionization rate produced by fast electrons within the hollow cathode and takes into account the loss of ions due to ambipolar diffusion. The model reproduces a transition from a DC discharge with two separate near-cathode regions to a single hollow-cathode type discharge with the accompanying dramatic increase in current density as intercathode separation L decreases. It is shown that for typical conditions of a planar hollow-cathode discharge, ambipolar losses are relevant and contribute to deviation from pL scaling laws. Comparison with classical experiments show good agreement up until the smallest intercathode separations. Application of the model for assessment of experimental data on properties of discharges with parallel-plate cathode configuration and for studies of secondary electron emission from cathode surfaces is discussed. © 2024 Author(s).
AB - A simple analytical model of a hollow cathode effect in a direct-current (DC) discharge with parallel-plate cathode configuration is presented. The model is based on the empirical formulation of non-local ionization rate produced by fast electrons within the hollow cathode and takes into account the loss of ions due to ambipolar diffusion. The model reproduces a transition from a DC discharge with two separate near-cathode regions to a single hollow-cathode type discharge with the accompanying dramatic increase in current density as intercathode separation L decreases. It is shown that for typical conditions of a planar hollow-cathode discharge, ambipolar losses are relevant and contribute to deviation from pL scaling laws. Comparison with classical experiments show good agreement up until the smallest intercathode separations. Application of the model for assessment of experimental data on properties of discharges with parallel-plate cathode configuration and for studies of secondary electron emission from cathode surfaces is discussed. © 2024 Author(s).
KW - Field emission cathodes
KW - Positive ions
KW - Secondary emission
KW - Diffusion loss
KW - Direct-current discharge
KW - Hollow cathode effect
KW - Hollow cathodes
KW - Ions diffusion
KW - Local ionization
KW - Nonlocal
KW - Parallel plates
KW - Scalings
KW - Simple++
KW - Electric discharges
UR - https://www.mendeley.com/catalogue/117bf987-5395-3971-b22e-045a4660d879/
U2 - 10.1063/5.0223427
DO - 10.1063/5.0223427
M3 - статья
VL - 31
JO - Physics of Plasmas
JF - Physics of Plasmas
SN - 1070-664X
IS - 10
ER -
ID: 126218920