RUS  ENG
Полная версия
ЖУРНАЛЫ // Успехи физических наук
УФН, 1995, том 165, номер 6, страницы 601–626 (Mi ufn1083)
Эктон — лавина электронов из металла
Г. А. Месяц

Эта публикация цитируется в следующих статьяx:
  1. E Michaux, J Julien, S Mazouffre, “High-speed imaging of titanium cathode spots in a high-current vacuum arc thruster”, J. Phys. D: Appl. Phys., 58:13 (2025), 135206  crossref
  2. Etienne Michaux, Stéphane Mazouffre, AIAA SCITECH 2025 Forum, 2025  crossref
  3. Sambhav Prashit Kaphle, Anandaroop Bhattacharya, “Experimental Analysis on Reliability of Needle Electrodes in Ionic Wind”, IEEE Trans. Compon., Packag. Manufact. Technol., 15:2 (2025), 428  crossref
  4. Igor A. Zeltser, Alexander Tolstoguzov, Dejun Fu, “Development of a Prototype of Industrial Installation for the Deposition of Self-Restoring Nitride Coatings on Reed Switch Contacts”, Coatings, 15:5 (2025), 533  crossref
  5. Rizos N. Krikkis, “Multiplicity features of carbon nanotube emitters”, Journal of Vacuum Science & Technology B, 43:3 (2025)  crossref
  6. Bangdou Huang, Chenhua Ren, Cheng Zhang, Edl Schamiloglu, Tao Shao, “Anomalous‐Energy Runaway Electrons Originating in Fast Ionisation Wave During Pulsed Gas Breakdown”, High Voltage, 2025  crossref
  7. “Conditions for the Synthesis of Ultrafine Tungsten in a High-Voltage Nanosecond Discharge Between Tungsten Electrodes in Inert Gases”, Nanosistemi, Nanomateriali, Nanotehnologii, 23:1 (2025)  crossref
  8. I. M. Datsko, N. A. Labetskaya, V. A. Van'kevich, S. A. Chaikovskii, V. I. Oreshkin, E. V. Oreshkin, “Electric Explosion of Flat Copper Conductors in the Current Skinning Mode”, Plasma Phys. Rep., 51:7 (2025), 763  crossref
  9. A. I. Zhakin, A. E. Kuzko, “Ionization Processes of Negative Corona Discharge Part 1. Review and Experiment”, jour, 14:1 (2024), 128  crossref
  10. A. I. Zhakin, A. E. Kuzko, “Ionization processes of negative corona discharge. Part 2. Theory. Comparison with experiment”, jour, 14:2 (2024), 122  crossref
  11. “Conditions of Plasma Synthesis of Surface Microstructures in the 'Air–Silver Sulfide (Ag2S)' Steam-and-Gas Mixture”, Nanosistemi, Nanomateriali, Nanotehnologii, 21:4 (2024)  crossref
  12. Valery V. Valiullin, Sergey G. Kochura, Igor A. Maximov, Andrey B. Nadiradze, “Issues of ensuring the resistance of high-voltage solar arrays of spacecraft to the effects of secondary arc discharges”, Siberian Aerospace Journal, 25:1 (2024), 85  crossref
  13. V. V. Valliulin, A. B. Nadiradze, “Criterion of damaging effect caused by secondary arc discharge impact onto high-voltage solar batteries of the spacecraft”, Izvestiâ Akademii nauk SSSR. Ènergetika, 2024, no. 6, 71  crossref
  14. “Conditions for Gas-Discharge Synthesis of Thin Films of Tungsten Oxide from Pulsed Plasma Based on the Gas–Vapour Mixture 'Oxygen–Tungsten'”, Metallofiz. Noveishie Tekhnol., 2024  crossref
  15. A. I. Zhakin, A. E. Kuz'ko, “Ionization Processes in a Negative Needle‒Plane Electrode System: Experiment”, High Temp, 62:5 (2024), 565  crossref
  16. A. I. Zhakin, A. E. Kuzko, “Ionization Processes in a Negative Needle–Plane Electrode System: Injection Processes”, High Temp, 62:6 (2024), 725  crossref
  17. С. А. Баренгольц, Г. А. Месяц, “Взрывоэмиссионные процессы в термоядерных установках с магнитным удержанием плазмы и линейных электрон-позитронных коллайдерах”, УФН, 193:7 (2023), 751–769  mathnet  crossref  adsnasa; S. A. Barengolts, G. A. Mesyats, “Explosive emission processes in thermonuclear facilities with magnetic plasma confinement and in linear electron–positron colliders”, Phys. Usp., 66:7 (2023), 704–721  crossref  isi
  18. “Conditions for the Synthesis of Zinc Oxide Nanostructures from the Destruction Products of Overvoltage Nanosecond Discharge Between Zinc Electrodes in Oxygen Under Ultraviolet Irradiation of the Substrate”, Nanosistemi, Nanomateriali, Nanotehnologii, 21:1 (2023)  crossref
  19. A. K. Shuaibov, A. I. Minya, R. V. Gritsak, A. N. Malinin, A. A. Malinina, R. M. Golomb, Z. T. Gomoki, “Study of the Characteristics and Parameters of Plasma of Overvoltage Nanosecond Discharge in Krypton between the Electrodes of a Superionic Conductor—Silver Sulphide”, Surf. Engin. Appl.Electrochem., 59:5 (2023), 649  crossref
  20. A. K. Shuaibov, R. V. Gritsak, A. I. Minya, Z. T. Gomoki, A. A. Malinina, A. N. Malinin, M. I. Vatrala, “Gas Discharge Point Source of UV Radiation Based on Argon–Copper Gas–Vapor Mixture”, Surf. Engin. Appl.Electrochem., 59:3 (2023), 362  crossref
  21. V. A. Ivanov, M. E. Konyzhev, T. I. Kamolova, A. A. Dorofeyuk, “Characteristics of Microplasma Discharge Propagation Over the Titanium Surface Covered with a Thin Oxide Film”, J. Commun. Technol. Electron., 68:9 (2023), 1067  crossref
  22. Chenhua Ren, Bangdou Huang, Cheng Zhang, Bo Qi, Weijiang Chen, Tao Shao, “The critical effect of electron acceleration under enhanced electric field near cathode on the formation of runaway electrons and diffuse discharge in atmosphere”, Plasma Sources Sci. Technol., 32:8 (2023), 085013  crossref
  23. A. I. Zhakin, “Surface Electrons: Theory and EHD Application”, Surf. Engin. Appl.Electrochem., 59:5 (2023), 601  crossref
  24. Gang Lu, Minfu Liao, Ming Zhang, Yifan Sun, Jian Ou, Xiongying Duan, Xiaotao Han, “Study on the trigger characteristics of triple-gap laser-triggered vacuum switch”, Vacuum, 211 (2023), 111938  crossref
  25. Etienne Michaux, Alfio E. Vinci, Stéphane Mazouffre, “Fractal dimension of cathode spots in a high-current vacuum arc thruster”, Vacuum, 215 (2023), 112286  crossref
  26. A. I. Zhakin, A. E. Kuz'ko, “Study of the Electrical Conductivity and EHD Flows of Weakly Concentrated Solution of Transformer Oil with an Electron-Acceptor Impurity (Iodine)”, Surf. Engin. Appl.Electrochem., 59:6 (2023), 803  crossref
  27. Etienne Michaux, Stéphane Mazouffre, “Time-of-Flight Measurements in the Jet of a High-Current Vacuum Arc Thruster”, Aerospace, 10:12 (2023), 1011  crossref
  28. A. Shuaibov, A. Minya, R. Gritsak, A. Malinin, A. Malinina, R. Golomb, Z. Gomoki, “Investigation of Characteristics and Parameters of Plasma of an Overstressed Nanosecond Discharge in Krypton between Electrodes Made of a Superionic Conductor – Silver Sulfide”, EOM, 59:3 (2023), 20  crossref
  29. Denise Adamoli Laroque, Sandra Tiemi Seó, Germán Ayala Valencia, João Borges Laurindo, Bruno Augusto Mattar Carciofi, “Cold plasma in food processing: Design, mechanisms, and application”, Journal of Food Engineering, 312 (2022), 110748  crossref
  30. “Characteristics and Parameters of the Plasma of the Gas Discharge Reactor for the 'Cold' Synthesis of Bimetallic Cu–Zn Nanoparticles in Argon”, Nanosistemi, Nanomateriali, Nanotehnologii, 20:4 (2022)  crossref
  31. Etienne Michaux, Stéphane Mazouffre, Antoine Blanchet, “Time evolution of plasma parameters in the jet of a low-power vacuum arc thruster”, J Electr Propuls, 1:1 (2022)  crossref
  32. A. K. Shuaibov, A. I. Minya, A. A. Malinina, R. V. Gritsak, A. N. Malinin, Yu. Yu. Bilak, M. I. Vatrala, “Characteristics and Plasma Parameters of the Overstressed Nanosecond Discharge in Air between an Aluminum Electrode and a Chalcopyrite Electrode (СuInSe2)”, Surf. Engin. Appl.Electrochem., 58:4 (2022), 369  crossref
  33. O. K. Shuaibov, O. Y. Minya, A. O. Malinina, O. M. Malinin, R. V. Hrytsak, Z. T. Gomoki, M. I. Vatrala, “Characteristics and Parameters of Plasma of a High-Voltage Nanosecond Discharge in Argon at Atmospheric Pressure with an Ectonic Mechanism of Copper Vapor Introduction into Plasma”, Surf. Engin. Appl.Electrochem., 58:5 (2022), 465  crossref
  34. V. I. Oreshkin, S. A. Chaikovsky, I. M. Datsko, N. A. Labetskaya, E. V. Oreshkin, N. A. Ratakhin, A. G. Rousskikh, V. A. Vankevich, A. S. Chuvatin, “Filamentation of the surface plasma layer during the electrical explosion of conductors in strong magnetic fields”, Journal of Applied Physics, 132:8 (2022)  crossref
  35. O.K. Shuaibov, O.Y. Minya, A.O. Malinina, R.V. Grytsak, O.M. Malinin, “Оптичні характеристики і параметри плазми перенап-руженого наносекундного розряду між електродами з алюмінію та халькопіриту (СuInSe2) в аргоні”, Ukr. J. Phys., 67:4 (2022), 240  crossref
  36. John Theocharis, Spiros Gardelis, George Papaioannou, “Effect of Ambient on the Field Emission Induced-Damage in Dielectric-Less MEMS Capacitive Structures”, IEEE Trans. Device Mater. Relib., 22:2 (2022), 205  crossref
  37. O. K. Shuaibov, R. V. Hrytsak, O. I. Minya, A. A. Malinina, Yu. Yu. Bilak, Z. T. Gomoki, “Spectroscopic diagnostics of overstressed nanosecond discharge plasma between zinc electrodes in air and nitrogen”, J. Phys. Stud., 26:2 (2022)  crossref
  38. O. K. Shuaibov, R. V. Hrytsak, O. I. Minya, Z. T. Gomoki, M. I. Vatrala, “Conditions for Deposition of Surface Micro-Nanostructures of Silver and Zinc from Plasma of Overvoltage Nanosecond Discharge in Argon”, Metallofiz. Noveishie Tekhnol., 44:11 (2022), 1509  crossref
  39. A. K. Shuaibov, R. V. Gritsak, A. I. Minya, Z. T. Gomoki, A. A. Malinina, A. N. Malinin, M. I. Vatrala, “Gas-Discharge Point Source of UV Radiation Based on a Gas-Vapor Mixture of Argon and Copper”, EOM, 58:4 (2022), 81  crossref
  40. Shuaibov O.K., Minya O.Y., Hrytsak V R., Malinina A.O., Vatrala I M., “Study of Conditions of Gas- Discharge Synthesis of Zinc Oxide Nanostructures Under Automatic Uv-Irradiation of the Substrate By Plasma”, Phys. Chem. Solid State, 22:4 (2021), 717–723  crossref  isi
  41. “Characteristics and Parameters of Overvoltage Nanosecond Discharge Between an Electrode Made of Aluminium and an Electrode Made of Chalcopyrite in Nitrogen and Its Application for The Synthesis of Thin Films”, Nanosistemi, Nanomateriali, Nanotehnologii, 19:3 (2021)  crossref
  42. Mar Cogollo de Cádiz, Adrián López Arrabal, Andrés Díaz Lantada, M. V. Aguirre, “Materials degradation in non-thermal plasma generators by corona discharge”, Sci Rep, 11:1 (2021)  crossref
  43. “Electroluminescence of Aluminium-Oxides' Nanoparticles in Overstressed Nanosecond Discharge Plasma in High-Pressure Air”, Nanosistemi, Nanomateriali, Nanotehnologii, 19:1 (2021)  crossref
  44. Zhipeng Zhou, Andreas Kyritsakis, Zhenxing Wang, Yi Li, Yingsan Geng, Flyura Djurabekova, “Effect of the anode material on the evolution of the vacuum breakdown process”, J. Phys. D: Appl. Phys., 54:3 (2021), 035201  crossref
  45. O. K. Shuaibov, A. O. Malinina, R. V. Hrytsak, O. M. Malinin, Yu. Yu. Bilak, Z. T. Gomoki, M. I. Vatrala, “Characteristics and Parameters of Overstressed Nanosecond Discharge Plasma Between Copper Electrodes in Argon”, Metallofiz. Noveishie Tekhnol., 43:12 (2021), 1683  crossref
  46. Vyacheslav Ivanov, Mikhail Konyzhev, Tatyana Kamolova, Anna Dorofeyuk, “The characteristics of microplasma discharge propagation over the titanium surface covered with a thin oxide film”, Usp. prikl. fiz., 9:6 (2021), 449  crossref
  47. V I Oreshkin, S A Chaikovsky, E V Oreshkin, “Surface discharge during electrical explosion of conductors in strong magnetic fields”, J. Phys.: Conf. Ser., 2064:1 (2021), 012018  crossref
  48. V. A. Ivanov, M. E. Konyzhev, T. I. Kamolova, A. A. Dorofeyuk, “Propagation of Microplasma Discharge over Titanium Surface Covered with Thin Dielectric Film”, Plasma Phys. Rep., 47:6 (2021), 603  crossref
  49. O. K. Shuaibov, A. O. Malinina, “Overstressed Nanosecond Discharge in the Gases at Atmospheric Pressure and Its Application for the Synthesis of Nanostructures Based on Transition Metals”, Usp. Fiz. Met., 22:3 (2021), 382  crossref
  50. Fengfeng Jiang, Yi Wu, Yifei Wu, Yufei Cui, Mingzhe Rong, Hao Sun, Chen Long, “Experimental investigation on the erosion behavior in high-current vacuum arcs and resulting microparticles dynamics”, J. Phys. D: Appl. Phys., 54:39 (2021), 395201  crossref
  51. A.K. Shuaibov, A.Y. Minya, A.A. Malinina, R.V Gritsak, A.N. Malinin, Yu.Yu. Bilak, M.I. Vatrala, “Characteristics and Parameters of Overstressed Nanosecond Discharge Plasma in Air between an Electrode from Aluminum and Electrode from Chalcopyrite (CuInSe2)”, EOM, 57:5 (2021), 34  crossref
  52. Shuaibov A.K., Minya A.Y., Gomoki Z.T., Hrytsak R.V., Malinina A.A., Malinin A.N., Krasilinets V.M., Solomon A.M., “Characteristics and Parameters of Overstressed Nanosecond-Pulse Discharge Plasma Between Chalcopyrite (Cuinse2) Electrodes in Argon”, Surf. Eng. Appl. Electrochem., 56:4 (2020), 474–483  crossref  isi
  53. Zhakin A.I., Kuz'ko A.E., Kharlamov S.A., “Microehd Flow Structures Under Constant Electric Fields”, Surf. Eng. Appl. Electrochem., 56:5 (2020), 580–583  crossref  isi
  54. Shuaibov A.K., Minya I A., Malinina A.A., Gritsak V R., Malinin A.N., “Characteristics of the Nanosecond Overvoltage Discharge Between Cuinse2 Chalcopyrite Electrodes in Oxygen-Free Gas Media”, Ukr. J. Phys., 65:5 (2020), 400–411  crossref  isi
  55. Shuaibov A.K., Minya I A., Grytsak V R., Malinina A.A., Shevera V I., Vatrala I M., Gomoki Z.T., “Investigation of the Conditions of Synthesis of Metal and Chalcopyrite Films From the Degradation Products of Electrodes of An Overstressed Nanosecond Discharge in Argon and Air”, Phys. Chem. Solid State, 21:4 (2020), 669–679  crossref  isi
  56. Yu. G. Tkachenko, O. I. Tolochyn, V. F. Britun, D. Z. Yurchenko, “Effect of Shock Sintering Temperature and Carbon Content of the WC–Co Hardmetal Anode on the Mass Transfer in Electrospark Deposition”, Powder Metall Met Ceram, 58:11-12 (2020), 692  crossref
  57. Alexander Shuaibov, Alexander Minya, Antonina Malinina, Alexander Malinin, Zoltan Gomoki, “Synthesis of aluminum oxide nanoparticles in overstressed nanosecond discharge plasma with the ectonic sputtering mechanism of aluminum electrodes”, Highlights in BioScience, 2020  crossref
  58. “Characteristics of an Overstressed Discharge of Nanosecond Duration between Electrodes of Chalcopyrite in High Pressure Nitrogen”, ANN, 4:1 (2020)  crossref
  59. Tahan Wang, Wenzheng Liu, Kun He, Jiayu Lu, 2020 IEEE International Conference on High Voltage Engineering and Application (ICHVE), 2020, 1  crossref
  60. V A Ivanov, M E Konyzhev, A A Dorofeyuk, T I Kamolova, “Structure of microplasma discharge on titanium surface covered with thin dielectric film”, J. Phys.: Conf. Ser., 1647:1 (2020), 012018  crossref
  61. O. Mokrov, M. Simon, A. Schiebahn, U. Reisgen, “Concept for the calculation of the distribution of heat input in the cathode area by GMA welding”, Weld World, 64:9 (2020), 1605  crossref
  62. A. K. Shuaibov, A. Y. Minya, A. A. Malinina, A. N. Malinin, Z. T. Gomoki, I. V. Shevera, V. V. Danilo, “Study into Synchronous Flows of Bactericidal Ultraviolet Radiation and Transition Oxides Metals (Zn, Cu, Fe) in a Pulsed Gas Discharge Overvoltage Reactor Nanosecond Discharge in the Air”, Surf. Engin. Appl.Electrochem., 56:4 (2020), 510  crossref
  63. Qiang Sun, Wei Yang, Qianhong Zhou, “Three-fluid simulation of a cathode spot jet in vacuum arc discharge with a metal deuteride cathode”, J. Phys. D: Appl. Phys., 53:37 (2020), 375201  crossref
  64. Zhipeng Zhou, Andreas Kyritsakis, Zhenxing Wang, Yi Li, Yingsan Geng, Flyura Djurabekova, “Spectroscopic study of vacuum arc plasma expansion”, J. Phys. D: Appl. Phys., 53:12 (2020), 125501  crossref
  65. Dmitry Levko, Robert R. Arslanbekov, Vladimir I. Kolobov, “On the expansion of non-ideal copper plasma into vacuum”, Physics of Plasmas, 27:8 (2020), 083519  crossref
  66. Vodopyanov A., Razin S., Viktorov M., Sidorov A., “Vacuum Arc Plasma Heated By Sub-Terahertz Radiation as a Source of Extreme Ultraviolet Light”, IEEE Trans. Plasma Sci., 47:1, 3 (2019), 828–831  crossref  isi  scopus
  67. Gashkov M.A., Mesyats G.A., Zubarev N.M., XXXIII International Conference on Equations of State For Matter, Journal of Physics Conference Series, 1147, IOP Publishing Ltd, 2019  crossref  isi
  68. Parkevich E.V. Medvedev M.A. Khirianova A.I. Ivanenkov G.V. Selyukov A.S. Agafonov A.V. Shpakov K.V. Oginov A.V., “Extremely Fast Formation of Anode Spots in An Atmospheric Discharge Points to a Fundamental Ultrafast Breakdown Mechanism”, Plasma Sources Sci. Technol., 28:12 (2019), 125007  crossref  isi
  69. V. V. Apollonov, S. Yu. Kazantsev, “Self-Organization of Dissipative Structures in Gas-Discharge Plasma of Self-Initiated Volume Discharge”, Bull. Lebedev Phys. Inst., 46:5 (2019), 161  crossref
  70. В. В. Аполлонов, С. Ю. Казанцев, “Самоорганизация газоразрядной плазмы в SF$_{6}$ и смесях на его основе”, Письма в ЖТФ, 45:9 (2019), 23–25  mathnet  crossref; V. V. Apollonov, S. Yu. Kazantsev, “Gas discharge plasma self-organization in the SF$_{6}$ and it's base”, Tech. Phys. Lett., 45:5 (2019), 443–445  mathnet  crossref
  71. A. K. Shuaibov, A. I. Minya, Z. T. Gomoki, V. V. Danylo, P. V. Pinzenik, “Characteristics of High-Current Pulse Discharge in Air with Ectonic Mechanism of Copper Vapor Injection into a Discharge Gap”, Surf. Engin. Appl.Electrochem., 55:1 (2019), 65  crossref
  72. Zubarev N.M. Ivanov S.N., “Mechanism of Runaway Electron Generation At Gas Pressures From a Few Atmospheres to Several Tens of Atmospheres”, Plasma Phys. Rep., 44:4 (2018), 445–452  crossref  isi
  73. Shuaibov O.K., Minya O.Y., Chuchman M.P., Malinina A.O., Malinin O.M., Danilo V.V., Gomoki Z.T., “Parameters of Nanosecond Overvoltage Discharge Plasma in a Narrow Air Gap Between the Electrodes Containing Electrode Material Vapor”, Ukr. J. Phys., 63:9 (2018), 790–801  crossref  isi
  74. Alexander K Shuaibov, Alexander Y Minya, Mihaylo P Chuchman, Antonina A Malinina, Alexander N Malinin, Zoltan T Gomoki, Yanosh Ch Kolozhvari, “Optical characteristics of overstressed nanosecond discharge in atmospheric pressure air between chalcopyrite electrodes”, Plasma Res. Express, 1:1 (2018), 015003  crossref
  75. O A Omarov, N O Omarova, P Kh Omarova, “Formation of waves in explosive processes on a cathode with and without an external magnetic field”, J. Phys.: Conf. Ser., 1094 (2018), 012028  crossref
  76. Alexander Shuiabov, Alexander Minya, Antonina Malinina, Alexander Malinin, Roman Golomb, Igor Shevera, Zoltan Gomoki, Vladislav Danilo, “Synthesis of nanostructured transition metal oxides by a nanosecond discharge in air with assistance of the deposition process by plasma UV-radiation”, Adv. Nat. Sci: Nanosci. Nanotechnol., 9:3 (2018), 035016  crossref
  77. Patrick Vanraes, Annemie Bogaerts, “Plasma physics of liquids—A focused review”, Applied Physics Reviews, 5:3 (2018)  crossref
  78. M A Gashkov, N M Zubarev, “Formation of liquid-metal jets in a vacuum arc cathode spot: Analogy with drop impact on a solid surface”, J. Phys.: Conf. Ser., 946 (2018), 012131  crossref
  79. Efim Oks, Valeria Frolova, Alexey Nikolaev, Georgy Yushkov, 2018 28th International Symposium on Discharges and Electrical Insulation in Vacuum (ISDEIV), 2018, 389  crossref
  80. V P Budaev, S A Grashin, A V Karpov, L N Khimchenko, “Role of arc formation in overheating of tungsten limiter in the T-10 tokamak at high heat loads expected in the ITER tokamak”, J. Phys.: Conf. Ser., 1094 (2018), 012006  crossref
  81. Mikhail A. Gashkov, Gennady A. Mesyats, Nikolay M. Zubarev, Olga V. Zubareva, 2018 28th International Symposium on Discharges and Electrical Insulation in Vacuum (ISDEIV), 2018, 337  crossref
  82. Pervikov A., Lerner M., Krukovskii K., “Structural characteristics of copper nanoparticles produced by the electric explosion of wires with different structures of metal grains”, Curr. Appl. Phys., 17:2 (2017), 201–206  crossref  isi  elib  scopus
  83. Viktorov M.E., Mansfeld D.A., Vodopyanov A.V., Kiryuhin N.D., Golubev S.V., Yushkov G.Yu., “Observation of Plasma Microwave Emission During the Injection of Supersonic Plasma Flows Into Magnetic Arch”, Plasma Phys. Control. Fusion, 59:7 (2017), 075001  crossref  isi  scopus
  84. Mesyats G.A., “Ecton Processes in the Generation of Pulsed Runaway Electron Beams in a Gas Discharge”, Plasma Phys. Rep., 43:9 (2017), 952–956  crossref  isi  scopus
  85. A. S. Bugaev, A. V. Vizir', V. I. Gushenets, A. G. Nikolaev, E. M. Oks, K. P. Savkin, V. P. Frolova, G. Yu. Yushkov, “Generation of High Charge State Metal Ions in an Arc Plasma”, Russ Phys J, 60:8 (2017), 1392  crossref
  86. John E. Foster, “Plasma-based water purification: Challenges and prospects for the future”, Physics of Plasmas, 24:5 (2017)  crossref
  87. Peter J Bruggeman, Felipe Iza, Ronny Brandenburg, “Foundations of atmospheric pressure non-equilibrium plasmas”, Plasma Sources Sci. Technol., 26:12 (2017), 123002  crossref
  88. Е. В. Паркевич, И. Н. Тиликин, А. В. Агафонов, Т. А. Шелковенко, В. М. Романова, А. Р. Мингалеев, С. Ю. Савинов, Г. А. Месяц, С. А. Пикуз, “Проекционная рентгенография высокого разрешения острийного катода в сильноточном вакуумном диоде в излучении Х-пинча”, Письма в ЖЭТФ, 103:5 (2016), 402–407  mathnet  crossref  elib; E. V. Parkevich, I. N. Tilikin, A. V. Agafonov, T. A. Shelkovenko, V. M. Romanova, A. R. Mingaleev, S. Yu. Savinov, G. A. Mesyats, S. A. Pikuz, “High-resolution X-ray projection radiography of a pin cathode in a high-current vacuum diode using X-pinch radiation”, JETP Letters, 103:5 (2016), 357–361  crossref  isi
  89. Aban'shin N.P., Avetisyan Yu.A., Akchurin G.G., Loginov A.P., Morev S.P., Mosiyash D.S., Yakunin A.N., “A planar diamond-like carbon nanostructure for a low-voltage field emission cathode with a developed surface”, Tech. Phys. Lett., 42:5 (2016), 509–512  crossref  isi  scopus
  90. Gashkov M.A., Zubarev N.M., Zubareva O.V., Mesyats G.A., Uimanov I.V., “Model of liquid-metal splashing in the cathode spot of a vacuum arc discharge”, J. Exp. Theor. Phys., 122:4 (2016), 776–786  crossref  isi  elib  scopus
  91. Viktorov M.E., Golubev S.V., Mansfeld D.A., Vodopyanov A.V., “Excitation of electromagnetic waves in dense plasma during the injection of supersonic plasma flows into magnetic arch”, OPEN MAGNETIC SYSTEMS FOR PLASMA CONFINEMENT (OS2016): Proceedings of the 11th International Conference on Open Magnetic Systems for Plasma Confinement (Novosibirsk, Russia, 8–12 August 2016), AIP Conference Proceedings, 1771, eds. Arakcheev A., Sudnikov A., Amer Inst Physics, 2016, 070010  crossref  isi
  92. J. Shen, H.H. An, H.Y. Liu, G.E. Remnev, A.V. Nashilevskiy, D.Y. Li, J. Zhang, H.W. Zhong, X.J. Cui, G.Y. Liang, M. Qu, S. Yan, X.F. Zhang, G.L. Zhang, X. Yu, X.Y. Le, “Energy spectrum analysis for intense pulsed electron beam”, Laser Part. Beams, 34:4 (2016), 742  crossref
  93. V. S. Kurbanismailov, O. A. Omarov, G. B. Ragimkhanov, Kh. M. Abakarova, Ali Rafid Abbas Ali, “Formation of shock waves in a discharge plasma in the presence of a magnetic field”, Plasma Phys. Rep., 42:7 (2016), 687  crossref
  94. Encyclopedia of Plasma Technology, 2016, 1492  crossref
  95. E V Oreshkin, S A Barengolts, G A Mesyats, V I Oreshkin, K V Khishchenko, “The formation of a crater on the surface of the cathode in the explosion of micro tip”, J. Phys.: Conf. Ser., 774 (2016), 012191  crossref
  96. G. A. Mesyats, N. M. Zubarev, “The Rayleigh–Plateau instability and jet formation during the extrusion of liquid metal from craters in a vacuum arc cathode spot”, J. Appl. Phys, 117:4 (2015), 043302  crossref
  97. A. Majzoobi, R. P. Joshi, A. Neuber, J. Dickens, 2015 IEEE Pulsed Power Conference (PPC), 2015, 1  crossref
  98. M. E. Viktorov, A. V. Vodopyanov, S. V. Golubev, D. A. Mansfeld, A. G. Nikolaev, V. P. Frolova, G. Yu. Yushkov, “An experimental setup for studying the interaction of dense supersonic plasma flows with an arched magnetic field”, Tech. Phys. Lett., 41:9 (2015), 901  crossref
  99. E. V. Nefedtsev, A. V. Batrakov, “Numerical simulations of stable explosive-emission center plasma expansion in vacuum”, J. Exp. Theor. Phys., 121:4 (2015), 706  crossref
  100. A. K. Shuaibov, G. E. Laslov, Ya. Yu. Kozak, “Emission characteristics of the cathode region of nanosecond discharge in atmospheric-pressure air”, Opt. Spectrosc, 116:4 (2014), 552  crossref
  101. V.I. Zverev, V.I. Asiunin, A.A. Pshenichniy, R.K.h Yakubov, “Erosion of a component cathode of triggered vacuum gaps in arc discharges”, Phys. Scr, T161 (2014), 014073  crossref
  102. Kuz'menko A.P., Kuz'ko A.E., Timakov D.I., “Effect of Electric Fields on the Surface of Nanostructured Electrodes on Charge Formation”, Tech. Phys., 58:2 (2013), 239–244  crossref  isi
  103. Петров А.А., Амиров Р.Х., Коростылев Е.В., Самойлов И.С., “Исследование эрозии катода в отрицательном коронном разряде”, Труды московского физико-технического института, 5 (2013), 72–79  elib
  104. G. A. Mesyats, N. M. Zubarev, “Hydrodynamics of the molten metal in a vacuum arc cathode spot at near-threshold currents”, J. Appl. Phys, 113:20 (2013), 203301  crossref  adsnasa  isi
  105. R.H. Amirov, A.A. Petrov, I.S. Samoylov, “Nanoparticles formation and deposition in the trichel pulse corona”, J. Phys.: Conf. Ser, 418 (2013), 012064  crossref  adsnasa  isi
  106. Mesyats G.A., “Ecton Mechanism of the Cathode Spot Phenomena in a Vacuum Arc”, IEEE Trans. Plasma Sci., 41:4, 1, SI (2013), 676–694  crossref  adsnasa  isi
  107. M. M. Tsventoukh, S. A. Barengolts, V. G. Mesyats, D. L. Shmelev, “Retrograde motion of cathode spots of the first type in a tangential magnetic field”, Tech. Phys. Lett, 39:11 (2013), 933  crossref
  108. А. И. Жакин, “Электрогидродинамика”, УФН, 182:5 (2012), 495–520  mathnet  crossref  adsnasa  elib; A. I. Zhakin, “Electrohydrodynamics”, Phys. Usp., 55:5 (2012), 465–488  crossref  isi  elib
  109. Dovbnya A.N. Zakutin V.V. Reshetnyak N.G. Kolyada Yu.E. Fedun V.I. Tyutyunnikov V.I., “Excitation of Noncommunicative Plasmon's an Electron Beam”, Probl. At. Sci. Tech., 2012, no. 4, 171–175  isi
  110. Омаров О.А., Курбанисмаилов В.С., Арсланбеков М.А., Гаджиев М.Х., Рагимханов Г.Б., АЛЬ-ШАТРАВИ АЛИ ДЖ. Г., “Процессы расширения катодного пятна и формирование ударных волн в плазме объемного разряда в гелии атмосферного давления”, Физика плазмы, 38:1 (2012), 26–26  elib
  111. Омаров О.А., Курбанисмаилов В.С., Рагимханов Г.Б., Гаджиев М.Х., Курбанисмаилов М.В., “Формирование ударных волн при взрывных процессах на катоде во внешнем магнитном поле”, Вестник дагестанского государственного университета, 2012, № 6, 5–16  elib
  112. O. A. Omarov, V. S. Kurbanismailov, M. A. Arslanbekov, M. Kh. Gadzhiev, G. B. Ragimkhanov, Ali J. G. Al-Shatravi, “Expansion of the cathode spot and generation of shock waves in the plasma of a volume discharge in atmospheric-pressure helium”, Plasma Phys. Rep, 38:1 (2012), 22  crossref  adsnasa  isi  elib
  113. R. M. Urusov, F. R. Sultanova, T. E. Urusova, “Numerical modelling of unsteady heating and melting of the anode by electric arc. Part 1. Mathematical model and computed characteristics of the arc column”, Thermophys. Aeromech, 18:4 (2012), 643  crossref  isi
  114. Rafael Sh. Islamov, Yuriy A. Krishtafovich, “Lifetime and erosion of silver-based wire electrodes in an ultracorona in air”, Journal of Electrostatics, 2012  crossref  isi
  115. Karen Arushanov, Igor Zeltser, Sergey Karabanov, Rafail Maizels, Evgeny Moos, “Ion-Induced Surface Modification of Magnetically Operated Contacts”, Coatings, 2:4 (2012), 8  crossref
  116. Урусов Р.М., Султанова Ф.Р., Урусова Т.Э., “Численное моделирование нестационарного нагрева и плавления анода электрической дугой. часть 1. математическая модель и расчетные характеристики столба дуги”, Теплофизика и аэромеханика, 18:4 (2011), 671–688  elib
  117. Горюнов В.А., Майоров А.М., Майоров М.И., Родченков В.Г., “Пороговые токи взрывной электронной эмиссии в разрядных источниках света”, Известия высших учебных заведений. Поволжский регион. Физико-математические науки, 2011, № 4, 110–118  elib
  118. В. А. Горюнов, А. М. Майоров, М. И. Майоров, В. Г. Родченков, “Пороговые токи взрывной электронной эмиссии в разрядных источниках света”, Известия высших учебных заведений. Поволжский регион. Физико-математические науки, 2011, № 4, 110–118  mathnet
  119. Korenyugin D.G., Martsinovsky A.M., Orlov K.E., “Field Electron Emission From Cathode as a Possible Factor in the Transition From a Streamer to Spark Discharge Channel”, Tech. Phys. Lett., 35:10 (2009), 944–947  crossref  adsnasa  isi  elib
  120. Shabanov G.D., Zherebtsov O.M., Sokolovskii B.Yu., “Coulomb Synthesis”, Russ. J. Phys. Chem. B, 3:3 (2009), 426–431  crossref  isi  elib
  121. Alexey A. Petrov, Ravil H. Amirov, Igor S. Samoylov, “On the Nature of Copper Cathode Erosion in Negative Corona Discharge”, IEEE Trans Plasma Sci, 37:7 (2009), 1146  crossref  isi
  122. Barengolts S.A., Mesyats G.A., Tsventoukh M.M., “Initiation of Ecton Processes by Interaction of a Plasma with a Microprotrusion on a Metal Surface”, J. Exp. Theor. Phys., 107:6 (2008), 1039–1048  crossref  adsnasa  isi  elib
  123. Asinovskii E.I., Petrov A.A., Samoylov I.S., “Erosion of a Copper Cathode in a Negative Corona Discharge”, Tech. Phys., 53:2 (2008), 279–281  crossref  isi  elib
  124. André Anders, Springer Series on Atomic, Optical, and Plasma Physics, 50, Cathodic Arcs, 2008, 75  crossref
  125. V.P. Torchigin, A.V. Torchigin, “Self-organization of intense light within erosive gas discharges”, Physics Letters A, 361:1-2 (2007), 167  crossref  adsnasa  isi  elib
  126. M. B. Khachalov, Kh. G. Akhmedova, “The part played by explosive processes in the formation of discharge in argon”, High Temp, 45:4 (2007), 572  mathnet  mathnet  crossref  isi  elib
  127. А. И. Жакин, “Приэлектродные и переходные процессы в жидких диэлектриках”, УФН, 176:3 (2006), 289–310  mathnet  crossref  adsnasa; A. I. Zhakin, “Near-electrode and transient processes in liquid dielectrics”, Phys. Usp., 49:3 (2006), 275–295  crossref  isi
  128. V. D. Belik, R. V. Litvin, M. S. Koval’chenko, “Effect of pulse duration and size of interelectrode interval on electric-spark spraying. I. Effect of pulse duration and size of interelectrode interval on rate of electric-spark transfer”, Powder Metall Met Ceram, 45:11-12 (2006), 593  crossref  isi  elib
  129. I. A. Podchernyayeva, V. M. Panashenko, O. N. Grigor’ev, A. D. Panasyuk, V. I. Subbotin, “Structural and phase transformations in electrical spark modification in a ceramic-ceramic system”, Powder Metall Met Ceram, 45:11-12 (2006), 540  crossref  isi
  130. Alexander Batrakov, 2006 International Symposium on Discharges and Electrical Insulation in Vacuum, 2006, 358  crossref
  131. G. A. Mesyats, “The ecton mechanism of breakdown of solid dielectrics”, Dokl Phys, 49:12 (2004), 727  crossref  adsnasa  isi
  132. A. B. H. Tay, J. T. L. Thong, “Fabrication of super-sharp nanowire atomic force microscope probes using a field emission induced growth technique”, Rev Sci Instrum, 75:10 (2004), 3248  crossref  adsnasa  isi
  133. А. И. Жакин, “Ионная электропроводность и комплексообразование в жидких диэлектриках”, УФН, 173:1 (2003), 51–68  mathnet  crossref  adsnasa; A. I. Zhakin, “Ionic conductivity and complexation in liquid dielectrics”, Phys. Usp., 46:1 (2003), 45–61  crossref  isi
  134. Б. М. Смирнов, “Процессы генерации кластерных пучков”, УФН, 173:6 (2003), 609–648  mathnet  crossref  adsnasa; B. M. Smirnov, “Generation of cluster beams”, Phys. Usp., 46:6 (2003), 589–628  crossref  isi
  135. Г. А. Месяц, С. А. Баренгольц, УФН, 172:10 (2002), 1113–1130  mathnet  crossref  adsnasa; Phys. Usp., 45:10 (2002), 1001–1018  crossref  isi
  136. V.I. Fedun, O.N. Bulanchuk, Yu.E. Kolyada, 20th International Symposium on Discharges and Electrical Insulation in Vacuum, 2002, 607  crossref
  137. A.V. Batrakov, 20th International Symposium on Discharges and Electrical Insulation in Vacuum, 2002, 123  crossref
  138. I. A. Krinberg, “The ion charge-current strength relationship in stationary and pulsed vacuum discharges”, Tech Phys Lett, 27:1 (2001), 45  crossref  adsnasa  isi
  139. Б. М. Смирнов, УФН, 170:5 (2000), 495–534  mathnet  crossref  adsnasa; Phys. Usp., 43:5 (2000), 453–491  crossref  isi
  140. E. A. Zverev, I. A. Krinberg, “The current column contraction and ion charge increase induced by the current build-up in a pulsed vacuum discharge”, Tech Phys Lett, 26:4 (2000), 288  crossref  adsnasa  isi
  141. V.S. Sedoi, G.A. Mesyats, V.I. Oreshkin, V.V. Valevich, L.I. Chemezova, “The current density and the specific energy input in fast electrical explosion”, IEEE Trans Plasma Sci, 27:4 (1999), 845  crossref  adsnasa  isi
  142. Yu.D. Korolev, K. Frank, “Discharge formation processes and glow-to-arc transition in pseudospark switch”, IEEE Trans Plasma Sci, 27:5 (1999), 1525  crossref  adsnasa  isi
  143. I.V. Lisitsyn, H. Inoue, S. Katsuki, H. Akiyama, “Use of inductive energy storage for electric pulse destruction of solid materials”, IEEE Trans. Dielect. Electr. Insul., 6:1 (1999), 105  crossref
  144. I.V. Lisitsyn, H. Nomlyama, S. Katsuki, H. Akiyama, “Thermal processes in a streamer discharge in water”, IEEE Trans. Dielect. Electr. Insul., 6:3 (1999), 351  crossref
  145. S. Glisic, A.I. Strinic, J.V. Zivkovic, Z.L. Petrovic, “Voltage and current characteristics of pulsed hollow cathode discharges in hydrogen”, IEEE Trans Plasma Sci, 26:5 (1998), 1492  crossref  adsnasa  isi
  146. S. A. Barengol’ts, E. A. Litvinov, E. Yu. Sadovskaya, D. L. Shmelev, “Motion of the cathode spot of a vacuum arc in an external magnetic field”, Tech Phys, 43:6 (1998), 668  crossref  isi
  147. E. A. Zverev, I. A. Krinberg, “Heating of a current filament and formation of constrictions in a pulsed vacuum discharge”, Tech Phys Lett, 24:9 (1998), 728  crossref  adsnasa  isi
  148. I. V. Lisitsyn, H. Akiyama, G. A. Mesyats, “Role of electron clusters—Ectons—in the breakdown of solid dielectrics”, Phys. Plasmas, 5:12 (1998), 4484  crossref
  149. A.M. Mourzakaev, N.B. Volkov, 1, Proceedings ISDEIV. 18th International Symposium on Discharges and Electrical Insulation in Vacuum (Cat. No.98CH36073), 1998, 302  crossref
  150. L.I. Chemezova, G.A. Mesyats, V.S. Sedoi, B.N. Semin, V.V. Valevich, 1, Proceedings ISDEIV. 18th International Symposium on Discharges and Electrical Insulation in Vacuum (Cat. No.98CH36073), 1998, 48  crossref
  151. G.N. Fursey, L.A. Shirochin, Eleventh International Vacuum Microelectronics Conference. IVMC'98 (Cat. No.98TH8382), 1998, 142  crossref
  152. N. Vogel, V.A. Skvortsov, “Plasma parameters within the cathode spot of laser-induced vacuum arcs: experimental and theoretical investigations”, IEEE Trans Plasma Sci, 25:4 (1997), 553  crossref  adsnasa  isi
  153. Boris M Smirnov, “Processes in plasma and gases involving clusters”, PHYS USP, 40:11 (1997), 1117  mathnet  crossref
  154. S.A. Barengolts, E.A. Litvinov, V.G. Suvorov, “Nonequilibrium phenomena accompanying high-current thermal field emission”, IEEE Trans. Dielect. Electr. Insul., 4:6 (1997), 830  crossref
  155. S.A. Barengolts, E.A. Litvinov, V.G. Suvorov, 2, Proceedings of 17th International Symposium on Discharges and Electrical Insulation in Vacuum, 1996, 788  crossref
  156. G.A. Mesyats, 2, Proceedings of 17th International Symposium on Discharges and Electrical Insulation in Vacuum, 1996, 720  crossref
  157. N. Vogel, V. Skvortsov, 1, Proceedings of 17th International Symposium on Discharges and Electrical Insulation in Vacuum, 1996, 89  crossref

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