Ion emission from arc discharge plasmas
E. M. Oks
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G. Yu. Yushkov
Российский физический журнал,
1994,
T. 37, p. 222–229
https://doi.org/10.1007/BF00565733
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1994 |
“Titan,” a source of gas and metal ions based on a contracted discharge and vacuum arc
S. P. Bugaev
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E. M. Oks
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P. M. Shchanin
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G. Yu. Yushkov
Российский физический журнал,
1994,
T. 37, p. 245–254
https://doi.org/10.1007/BF00565735
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1994 |
Change in structure and properties of carbon steels bombarded by a 10−5 to 10−4 second high-energy electron beam
Yu. F. Ivanov
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I. S. Kashinskaya
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S. V. Lykov
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A. B. Markov
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E. M. Oks
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V. P. Potshtein
Российский физический журнал,
1995,
T. 38, p. 1040–1046
https://doi.org/10.1007/BF00559041
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1995 |
The ion emissivity of a hollow-cathode non-self-sustained glow discharge
A. V. Vizir
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E. M. Oks
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G. Yu. Yushkov
Российский физический журнал,
2000,
T. 43, p. 90–95
https://doi.org/10.1007/BF02508594
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2000 |
Time-of-flight mass spectrometry studies of an ion beam generated by the titan source
A. S. Bugaev
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V. I. Gushenets
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A. G. Nikolaev
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E. M. Oks
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G. Yu. Yushkov
Российский физический журнал,
2000,
T. 43, p. 96–103
https://doi.org/10.1007/BF02508595
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2000 |
Generation of Multiply Charged Ions in the Plasma of a Vacuum Arc Discharge
A. S. Bugaev
,
V. I. Gushenets
,
G. Y. Yushkov
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E. M. Oks
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A. Anders
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I. Brown
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A. Gershkovich
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P. Spadke
Российский физический журнал,
2001,
T. 44, p. 912–920
https://doi.org/10.1023/A:1014349620595
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2001 |
Technological Ion Sources Based on a Vacuum Arc Discharge
S. P. Bugaev
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A. G. Nikolaev
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E. M. Oks
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G. Y. Yushkov
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P. M. Schanin
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Y. Brown
Российский физический журнал,
2001,
T. 44, p. 921–926
https://doi.org/10.1023/A:1014301704666
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2001 |
Generation of Electron Beams in the Range of Forevacuum Pressures
Y. A. Burachevskii
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V. A. Burdovitsin
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M. N. Kuzemchenko
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A. V. Mytnikov
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E. M. Oks
Российский физический журнал,
2001,
T. 44, p. 996–1001
https://doi.org/10.1023/A:1014370225138
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2001 |
Plasma Expansion in the Anode Emission Channel of an Electron Source
D. G. Danilishin
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V. A. Burdovitsin
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Yu. A. Burachevskii
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E. M. Oks
Российский физический журнал,
2001,
T. 44, p. 478–481
https://doi.org/10.1023/A:1012377510846
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2001 |
Parameters of the Plasma Sheet Generated by a Sheet Beam in the Range of Forvacuum Pressures
V. A. Burdovitsin
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E. M. Oks
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M. V. Fedorov
Российский физический журнал,
2004,
T. 47, p. 310–314
https://doi.org/10.1023/B:RUPJ.0000038749.98921.aa
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2004 |
Localization of plasma in the extended hollow cathode of a ribbon-electron-beam plasma source at forevacuum pressures
A. C. Klimov
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V. A. Burdovitsyn
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E. M. Oks
Российский физический журнал,
2007,
T. 50, p. 521–527
https://doi.org/10.1007/s11182-007-0078-4
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2007 |
Formation of a pulsed electron beam in a plasmacathode system under forevacuum pressures
A. V. Medovnik
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V. A. Burdovitsin
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E. M. Oks
Российский физический журнал,
2010,
T. 53, p. 134–139
https://doi.org/10.1007/s11182-010-9398-x
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2010 |
Generation of High Charge State Metal Ions in an Arc Plasma
A. S. Bugaev
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A. V. Vizir’
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V. I. Gushenets
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A. G. Nikolaev
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E. M. Oks
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K. P. Savkin
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V. P. Frolova
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G. Yu. Yushkov
Российский физический журнал,
2017,
T. 60, p. 1392–1399
https://doi.org/10.1007/s11182-017-1227-z
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2017 |
Generation of Ribbon Electron Beams by Fore-Vacuum Plasma Sources Based on the Discharge with an Extended Hollow Cathode
A. S. Klimov
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E. M. Oks
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A. A. Zenin
Российский физический журнал,
2018,
T. 60, p. 1501–1508
https://doi.org/10.1007/s11182-018-1242-8
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2018 |
Effect of the Enhanced Breakdown Strength in Plasma-Filled Optical System of Electron Beam Formation
V. I. Gushenets
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A. S. Bugaev
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E. M. Oks
Российский физический журнал,
2018,
T. 60, p. 1515–1519
https://doi.org/10.1007/s11182-018-1244-6
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2018 |
Angular Distributions of Plasma Flows in a Vacuum Arc with Boride Cathodes
A. G. Nikolaev
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E. M. Oks
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V. P. Frolova
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G. Yu. Jushkov
Российский физический журнал,
2018,
T. 60, p. 1528–1532
https://doi.org/10.1007/s11182-018-1246-4
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2018 |
Generation of Deuterium Ions in a Vacuum Arc with Composite Gas-Saturated Cathode and in a Low-pressure Arc
A. G. Nikolaev
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E. M. Oks
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V. P. Frolova
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G. Yu. Yushkov
Российский физический журнал,
2019,
T. 62, p. 1109–1116
https://doi.org/10.1007/s11182-019-01824-7
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2019 |
Generation of Boron Ions for Beam and Plasma Technologies
A. S. Bugaev
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A. V. Vizir
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V. I. Gushenets
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A. G. Nikolaev
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E. M. Oks
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K. P. Savkin
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Yu. G. Yushkov
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A. V. Tyunkov
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V. P. Frolova
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M. V. Shandrikov
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G. Yu. Yushkov
Российский физический журнал,
2019,
T. 62, p. 1117–1122
https://doi.org/10.1007/s11182-019-01825-6
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2019 |
Formation of Gradient Metalloceramic Materials Using Electron-Beam Irradiation in the Forevacuum
A. S. Klimov
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A. A. Zenin
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I. Yu. Bakeev
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E. M. Oks
Российский физический журнал,
2019,
T. 62, p. 1123–1129
https://doi.org/10.1007/s11182-019-01826-5
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2019 |
Plasma Source for Bipolar Electron-Optical System
A. S. Bugaev
,
A. A. Goncharov
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V. I. Gushenets
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E. M. Oks
Российский физический журнал,
2019,
T. 62, p. 1306–1311
https://doi.org/10.1007/s11182-019-01848-z
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2019 |
Axial Distribution of the Ion Mass-to-Charge State in a Magnetron Discharge Plasma
M. V. Shandrikov
,
I. D. Artamonov
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A. V. Vizir
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A. S. Bugaev
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E. M. Oks
Российский физический журнал,
2020,
T. 62, p. 1993–1997
https://doi.org/10.1007/s11182-020-01934-7
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2020 |
Space-Charge Region Near Dielectric Target Under Electron-Beam Irradiation
V. A. Burdovitsin
,
E. M. Oks
Российский физический журнал,
2020,
T. 62, p. 2011–2014
https://doi.org/10.1007/s11182-020-01937-4
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2020 |
Phase Composition of Ultra-Fine Grain Titanium After Aluminum Ion Implantation
A. V. Nikonenko
,
N. A. Popova
,
E. L. Nikonenko
,
M. P. Kalashnikov
,
I. A. Kurzina
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E. M. Oks
Российский физический журнал,
2021,
T. 64, p. 302–308
https://doi.org/10.1007/s11182-021-02329-y
|
2021 |
Discharge Systems and Plasma-Assisted Electron Emission in Forevacuum Pressure Range
V. A. Burdovitsin
,
E. M. Oks
Российский физический журнал,
2021,
T. 63, p. 1678–1685
https://doi.org/10.1007/s11182-021-02221-9
|
2021 |
Generation of Submillisecond Beams of Deuterium Ions Based on a Vacuum Arc with a Gas-Saturated Zirconium Cathode
A. G. Nikolaev
,
E. M. Oks
,
V. P. Frolova
,
G. Yu. Yushkov
Российский физический журнал,
2021,
T. 63, p. 1773–1782
https://doi.org/10.1007/s11182-021-02234-4
|
2021 |
Modification of the Material Surface by Boron Ions Based on Vacuum Arc Discharge Systems and a Planar Magnetron
A. S. Bugaev
,
A. V. Vizir
,
V. I. Gushenets
,
A. G. Nikolaev
,
A. V. Nikonenko
,
E. M. Oks
,
K. P. Savkin
,
V. P. Frolova
,
M. V. Shandrikov
,
G. Y. Yushkov
Российский физический журнал,
2021,
T. 63, p. 1820–1828
https://doi.org/10.1007/s11182-021-02239-z
|
2021 |
Physical Features of the Functioning of a Planar Magnetron Sputter with a Thermally Insulated, Discharge-Heated Target for Boron Coating Deposition
A. V. Vizir
,
A. G. Nikolaev
,
E. M. Oks
,
V. P. Frolova
,
A. A. Cherkasov
,
M. V. Shandrikov
,
G. Yu. Yushkov
Российский физический журнал,
2022,
T. 64, p. 2177–2184
https://doi.org/10.1007/s11182-022-02574-9
|
2022 |