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Krasik Y.E. Plasma cathode research in plasma physics and pulsed power laboratory // Izvestiya vuzov. Fizika. 2020. № 10. P. 17–32. DOI: 10.17223/00213411/63/10/17
33–40
Burdovitsin V.A., Oks E.M. Achievements in research of functioning processes discharge systems and emissions of electrons from plasma in forevacuum pressure range // Izvestiya vuzov. Fizika. 2020. № 10. P. 33–40. DOI: 10.17223/00213411/63/10/33
41–47
Kosogorov S.L., Uspensky N.A., Shvedyuk V.Ya., Vaselyonok A.A., Djigailo I.D., Smirnov G.A. Wide-aperture low-energy electron accelerators based on high-voltage glow discharge developed in JSC "NIIEFA" // Izvestiya vuzov. Fizika. 2020. № 10. P. 41–47. DOI: 10.17223/00213411/63/10/41
48–53
Egorov I.S., Isemberlinova A.A., Poloskov A.V., Serebrennikov M.A., Nuzhnykh S. A., Remnev G.E. About application of pulsed electron beams with wide kinetic energy spectrum // Izvestiya vuzov. Fizika. 2020. № 10. P. 48–53. DOI: 10.17223/00213411/63/10/48
54–66
Ryabchikov A.I., Shevelev A.E., Sivin D.O., Dektyarev S.V., Korneva O.S. High-intensity, low-ion energy, convergent beam propagation through low-density background plasma // Izvestiya vuzov. Fizika. 2020. № 10. P. 54–66. DOI: 10.17223/00213411/63/10/54
67–73
Antonovich D.A., Gruzdev V.A., Zalesski V.G. Features of electron optical systems with plasma emitter based on stationary double electric layers in plasma // Izvestiya vuzov. Fizika. 2020. № 10. P. 67–73. DOI: 10.17223/00213411/63/10/67
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ZavJalov M.A., Sapronova T.M., Syrovoy V.A. Bipolar systems with plasma sources ahead of cathode and at anode // Izvestiya vuzov. Fizika. 2020. № 10. P. 74–79. DOI: 10.17223/00213411/63/10/74
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Astrelin V.T. Boundary conditions in the source of an electron beam on the surface of the anode plasma with a supersonic ion flow // Izvestiya vuzov. Fizika. 2020. № 10. P. 80–86. DOI: 10.17223/00213411/63/10/80
87–94
Kovalsky S.S., Denisov V.V., Koval N.N., Ostroverchov E.V. Extended cylindrical plasma emitter based on the low pressure arc discharge for generation of a radial dividing electron beam // Izvestiya vuzov. Fizika. 2020. № 10. P. 87–94. DOI: 10.17223/00213411/63/10/87
95–101
Kuzmichev A.I., Melnichenko M.S., Shulaev V.M. Secondary emission of atomic particles under bombardment of heavy d-metals by ions from nitrogen plasma // Izvestiya vuzov. Fizika. 2020. № 10. P. 95–101. DOI: 10.17223/00213411/63/10/95
102–108
Semenov A.P., Semenova I.A., Tsyrenov D.B.-D., Nikolaev E.O. Properties of a low pressure magnetron discharge under the beam initiation of accelerated ions of emission processes on discharge electrodes // Izvestiya vuzov. Fizika. 2020. № 10. P. 102–108. DOI: 10.17223/00213411/63/10/102
109–116
Yakovlev V.V., Denisov V.V., Koval N.N., Kovlasky S.S., Ostroverchov E.V., Egorov A.O., Savchuk M.V. Plasma generation with increased ionization degree in pulsed high-current low-pressure hollow cathode glow discharge // Izvestiya vuzov. Fizika. 2020. № 10. P. 109–116. DOI: 10.17223/00213411/63/10/109
117–123
Landl N.V., Korolev Y.D., Lopatin I.V., Krysina O.V., Frants O.B., Argunov G.A. Mechanisms of plasma sustaining in large-volume hollow anode // Izvestiya vuzov. Fizika. 2020. № 10. P. 117–123. DOI: 10.17223/00213411/63/10/117
124–131
Nikolaev A.G., Oks E.M., Frolova V.P., Yushkov G.Yu. Generation of submilisecond beams of deuterium ions based on a vacuum arc with a gas-saturated zirconium cathode // Izvestiya vuzov. Fizika. 2020. № 10. P. 124–131. DOI: 10.17223/00213411/63/10/124
132–135
Frolova V.P., Nikolaev A.G., Yushkov G.Y.U., Kiziridi P.P., Prokopenko N.A. Investigation of the generation of ion beams in a vacuum arc ion source with a multicomponent cathode // Izvestiya vuzov. Fizika. 2020. № 10. P. 132–135. DOI: 10.17223/00213411/63/10/132
136–143
Brown I.G. Some reflections on very large scale ion beam surface modification // Izvestiya vuzov. Fizika. 2020. № 10. P. 136–143. DOI: 10.17223/00213411/63/10/136
144–150
Kamenetskikh A.S., Gavrilov N.V., Tretnikov P.V., Chukin A.V., Menshakov A.I., Cholakh S.O. Deposition of the α-Al2O3 coatings by reactiveevaporation with intensive ion assistance under 500-550 °C // Izvestiya vuzov. Fizika. 2020. № 10. P. 144–150. DOI: 10.17223/00213411/63/10/144
151–156
Yakovlev E.V., Markov A.B., Shepel D.A., Petrov V.I., Neyman A.A. Adhesion strenghtof Ni-Cu surface alloy formed by a low-energy hight-current electron beam // Izvestiya vuzov. Fizika. 2020. № 10. P. 151–156. DOI: 10.17223/00213411/63/10/151
157–165
Ryabchikov A.I., Ivanova A.I., Korneva O.S., Sivin D.O. Features of high-intensity implantation of low energy ions // Izvestiya vuzov. Fizika. 2020. № 10. P. 157–165. DOI: 10.17223/00213411/63/10/157
166–173
Bugaev A.S., Vizir A.V., Gushenets V.I., Nikolaev A.G., Nikonenko A.V., Oks E.M., Savkin K.P., Frolova V.P., Shandrikov M.V., Yushkov G.Y. Modification of the surface of materials by boron ions based on discharge systems of vacuum arc and planar magnetron // Izvestiya vuzov. Fizika. 2020. № 10. P. 166–173. DOI: 10.17223/00213411/63/10/166
174–183
Koval N.N., Ivanov Yu.F., Devyatkov V.N., Shugurov V.V., Teresov A.D., Petrikova E.A. Development of the combined electron-ion-plasma method of surface modification of materials and articles // Izvestiya vuzov. Fizika. 2020. № 10. P. 174–183. DOI: 10.17223/00213411/63/10/174
