Plasma parameters investigation of the RF inductive plasma source with diameter 46 cm. Part II. Plasma parameters numerical simulation of the inductive and hybrid RF discharges

被引:0
|
作者
机构
[1] Aleksandrov, A.F.
[2] Vavilin, K.V.
[3] Kralkina, E.A.
[4] Neklyudova, P.A.
[5] Pavlov, V.B.
来源
| 1600年 / Federal Informational-Analytical Center of the Defense Industry卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
引用
下载
收藏
相关论文
共 50 条
  • [1] Plasma parameters investigation of the RF inductive plasma source with diameter 46 cm. Part III. Power absorption efficiency
    Aleksandrov, A.F.
    Vavilin, K.V.
    Kralkina, E.A.
    Neklyudovav, P.A.
    Pavlov, V.B.
    Applied Physics, 2014, (02): : 17 - 20
  • [2] Influence of external parameters on RF inductive discharge plasma characteristics
    Kralkina, Elena
    Nekludova, Polina
    Nikonov, Aleksander
    Vavilin, Konstantin
    Zadiriev, Ilya
    Tarakanov, Vladimir
    PLASMA SOURCES SCIENCE & TECHNOLOGY, 2021, 30 (11):
  • [3] Axial Dependence of the Longitudinal RF Magnetic Field and Plasma Parameters in an Inductive Plasma Source with an External Magnetic Field
    A. M. Nikonov
    K. V. Vavilin
    I. I. Zadiriev
    E. A. Kralkina
    Plasma Physics Reports, 2022, 48 : 1189 - 1198
  • [4] Plasma parameters in a twin-chamber RF inductive plasma source, placed in a weak external magnetic field
    Petrov, A. K.
    Kralkina, E. A.
    Nikonov, A. M.
    Vavilin, K. V.
    Zadiriev, I. I.
    VACUUM, 2019, 169
  • [5] Axial Dependence of the Longitudinal RF Magnetic Field and Plasma Parameters in an Inductive Plasma Source with an External Magnetic Field
    Nikonov, A. M.
    Vavilin, K. V.
    Zadiriev, I. I.
    Kralkina, E. A.
    PLASMA PHYSICS REPORTS, 2022, 48 (11) : 1189 - 1198
  • [6] Anisotropic etching in inductive plasma source with no rf biasing
    Park, Wontaek
    Journal of Applied Physics, 2008, 104 (06):
  • [7] Anisotropic etching in inductive Plasma source with no rf biasing
    Park, Wontaek
    JOURNAL OF APPLIED PHYSICS, 2008, 104 (06)
  • [8] Investigation of the helicon discharge plasma parameters in a hybrid RF plasma system
    Aleksandrov, A. F.
    Petrov, A. K.
    Vavilin, K. V.
    Kralkina, E. A.
    Neklyudova, P. A.
    Nikonov, A. M.
    Pavlov, V. B.
    Ayrapetov, A. A.
    Odinokov, V. V.
    Sologub, V. A.
    Pavlov, G. Ya.
    PLASMA PHYSICS REPORTS, 2016, 42 (03) : 290 - 292
  • [9] Investigation of Helicon discharge plasma parameters in the hybrid RF plasma system
    Aleksandrov, A.F.
    Petrov, A.K.
    Vavilin, K.V.
    Kralkina, E.A.
    Neklyudova, P.A.
    Nikonov, A.M.
    Pavlov, V.B.
    Ayrapetov, A.A.
    Odinokov, V.V.
    Sologub, V.A.
    Pavlov, G.Ya.
    Applied Physics, 2015, 2015-January (03): : 25 - 28
  • [10] Investigation of the helicon discharge plasma parameters in a hybrid RF plasma system
    A. F. Aleksandrov
    A. K. Petrov
    K. V. Vavilin
    E. A. Kralkina
    P. A. Neklyudova
    A. M. Nikonov
    V. B. Pavlov
    A. A. Ayrapetov
    V. V. Odinokov
    V. A. Sologub
    G. Ya. Pavlov
    Plasma Physics Reports, 2016, 42 : 290 - 292
12345