RSS-ленты
РусскийEnglish
Выпуск 3, 2026
Том год страница
Выпуски Авторы PACS Подписчикам Для авторов

Выпуски

 / 

1981

 / 

Июнь

  

Обзоры актуальных проблем


Физика химически активной плазмы с неравновесным колебательным возбуждением молекул

, ,

Введение. Колебательная кинетика и реакции колебательно-возбужденных молекул в неравновесной плазме. Диссоциации СO2 в неравновесной плазме. Кинетика диссоциации СO2 через колебательное возбуждение основного электронного состояния. Колебательная кинетика и энергетический баланс разложения СО2. Эксперименты по диссоциации СО2 в неравновесной плазме умеренного и повышенного давления. СВЧ разряды. ВЧ разряды. Несамостоятельный разряд, поддерживаемый сильноточным пучком релятивистских электронов. Полная диссоциация СО2 и восстановление углерода в плазме. Получение водорода в неравновесных плазмохимических системах. Прямое разложение паров воды в плазме. Разложение Н2О через колебательно-возбужденные состояния реагентов. Вклад диссоциативного прилипания в процессе разложения Н2О. Эксперименты по прямому разложению Н2О в плазме. Получение водорода в неравновесных плазмохимических системах Н2О — СО2. Неравновесная плазмохимия смеси СО2 — Н2О. Неравновесная плазмохимия смеси СО-О22О. Синтез окислов азота в неравновесной плазме. О механизмах окисления азота в плазме. Элементарная реакция синтеза NO с участием колебательно-возбужденных молекул азота. Заселение высоковозбужденных состояний молекул азота и константа скорости синтеза. Кинетика и энергетический баланс плазмохимического процесса синтеза окислов азота. Устойчивость окислов по отношению к обратным реакциям. Об экспериментах по синтезу окислов азота в плазме. Заключение. Цитированная литература.

Текст pdf (3,4 Мб)
English fulltext is available at DOI: 10.1070/PU1981v024n06ABEH004884
PACS: 52.40.−w, 52.80.−s (все)
DOI: 10.3367/UFNr.0134.198106a.0185
URL: https://ufn.ru/ru/articles/1981/6/a/
Цитата: Русанов В Д, Фридман А А, Шолин Г В "Физика химически активной плазмы с неравновесным колебательным возбуждением молекул" УФН 134 185–235 (1981)
BibTexBibNote ® (generic)BibNote ® (RIS)MedlineRefWorks

English citation: Rusanov V D, Fridman A A, Sholin G V “The physics of a chemically active plasma with nonequilibrium vibrational excitation of moleculesSov. Phys. Usp. 24 447–474 (1981); DOI: 10.1070/PU1981v024n06ABEH004884

Статьи, ссылающиеся на эту (263) ↓ Похожие статьи (20)

  1. Bykov E, Tixier S et al Fuel 407 137392 (2026)
  2. Albrechts M, Tsonev I et al Energy Conversion and Management 349 120842 (2026)
  3. Li R, Li Zh et al Journal of Environmental Chemical Engineering 14 (2) 121742 (2026)
  4. Mamytbekov G, Danko I et al Technologies 14 (3) 174 (2026)
  5. Lan C, Zhu H et al Environ. Sci. Technol. Lett. 13 (1) 34 (2026)
  6. Li T, Jiang H et al Plasma‐Assisted Nitrogen Fixation for Sustainable Process Industries 1 (2026) p. 147
  7. Gorbanev Yu, Bogaerts A Plasma‐Assisted Nitrogen Fixation for Sustainable Process Industries 1 (2026) p. 423
  8. Feng Yu, Dai Sh et al ENG. Chem. Eng. 20 (1) (2026)
  9. Wang N, Liu Zh et al Chemical Engineering Journal 530 173344 (2026)
  10. Qi Sh, Wang J et al Adv Funct Materials 36 (23) (2026)
  11. Zhang Ya, Yu J et al Exploration 6 (1) (2026)
  12. Hegemann D, Snoeckx R Plasma Processes & Polymers 23 (1) (2026)
  13. Janda M, Tóth P, Smirnov S Eur. Phys. J. D 79 (12) (2025)
  14. Shen Q, Pikalev A et al React. Chem. Eng. 10 (1) 146 (2025)
  15. Maksimov V, Haim A et al Plasma 8 (3) 35 (2025)
  16. Gromov M, Narimisa M et al Springer Series on Atomic, Optical, and Plasma Physics Vol. Emerging Applications of Ions and PlasmasReevaluating the Role of Water in Plasma-assisted Nitrogen Fixation127 Chapter 7 (2025) p. 167
  17. Gromov M, Gorbanev Yu et al RSC Sustainability 3 (2) 757 (2025)
  18. Vertongen R, Tsonev I, Bogaerts A Chemical Engineering Journal 505 159487 (2025)
  19. Chatterjee A, Samadi B O et al Plasma Sources Sci. Technol. 34 (10) 105018 (2025)
  20. Cook M J, Nott T et al J. Phys. Energy 7 (2) 022002 (2025)
  21. Tsonev I, Biondo O, Bogaerts A Plasma Sources Sci. Technol. 34 (1) 015014 (2025)
  22. Li ZhiYu, Teng XiaoHan et al Journal of Environmental Chemical Engineering 13 (5) 118605 (2025)
  23. Kwak K, Hawwash A A et al Journal of Chemical Engineering of Japan 58 (1) (2025)
  24. Du J, You H et al ACS Sustainable Chem. Eng. 13 (6) 2596 (2025)
  25. Yang Yu, Murphy A B Current Opinion in Green and Sustainable Chemistry 51 100994 (2025)
  26. Qiao Ju-J, Yang Q et al Plasma Sources Sci. Technol. 34 (6) 065008 (2025)
  27. Chang Z, Liu N et al AIAA SCITECH 2025 Forum, (2025)
  28. Jiang H, Rezaeimotlagh A et al Energy Environ. Sci. 18 (21) 9373 (2025)
  29. Teng XiaoHan, Li ZhiYu et al Plasma Processes & Polymers 22 (9) (2025)
  30. Wang L, Lei L et al Plasma Sources Sci. Technol. 34 (7) 075013 (2025)
  31. Wan W-D, Sun S-R et al Green Chem. 27 (46) 14807 (2025)
  32. Okonkwo C U, Xiujin Zh et al Plasma Processes & Polymers 22 (5) (2025)
  33. Gande V V, Kani N C et al EES Catal. 3 (5) 883 (2025)
  34. Klimek A, Piercey D G Processes 12 (4) 786 (2024)
  35. Zhu M 朱, Wang F 王, Xia W 夏 Laser Optoelectron. Prog. 61 (9) 0930002 (2024)
  36. Nouri E, Kardan A, Mottaghitalab V Emerging Applications of Plasma Science in Allied Technologies Advances in Chemical and Materials Engineering chapter 1 (2024) p. 1
  37. Nomanbhay S, Ong M Y Waste Valorization for Bioenergy and Bioproducts (2024) p. 423
  38. Lisi N, Pasqual L U Journal of CO2 Utilization 88 102931 (2024)
  39. Zhang Y, Liu B et al J. Phys. D: Appl. Phys. 57 (12) 125204 (2024)
  40. Majeed M, Iqbal M et al Chemical Engineering Journal 485 149727 (2024)
  41. Ye X P Eng 5 (3) 1823 (2024)
  42. Sun J, Qu Zh et al J. Phys. D: Appl. Phys. 57 (50) 503002 (2024)
  43. Bykov E, Jančauskas A et al Fuel 368 131602 (2024)
  44. Chekmarev N V, Sintsov S V et al 2024 Photonics & Electromagnetics Research Symposium (PIERS), (2024) p. 1
  45. Aceto D, Ambrico P F, Esposito F Front. Phys. 12 (2024)
  46. Silva T, Bera S et al J. Phys. Chem. A 128 (34) 7235 (2024)
  47. Zhu H, Huang Yu et al Green Energy and Resources 2 (1) 100061 (2024)
  48. HAN 韩 Zeyang 泽阳, ZHANG 张 Mengxue 梦雪 et al Plasma Sci. Technol. 26 (1) 015505 (2024)
  49. Zhang Yu, Zhu Ch et al Journal of Cleaner Production 452 142158 (2024)
  50. Usanov A, Shomirzaev E, Kovalev I E3S Web Conf. 548 08019 (2024)
  51. Qiao Ju-J, Yang Q et al Plasma Sources Sci. Technol. 33 (5) 055004 (2024)
  52. Bogaerts A, Tu X, Nozaki T Advances in CO2 Utilization Green Chemistry and Sustainable Technology Chapter 10 (2024) p. 209
  53. Zhou Ch, Yuan Ch et al Plasma Sources Sci. Technol. 32 (1) 015010 (2023)
  54. Samadi B O, Manaigo F et al Journal of Applied Physics 133 (11) (2023)
  55. Wang X-Ch, Gao Sh-H, Zhang Yu-T IEEE Trans. Plasma Sci. 51 (1) 49 (2023)
  56. Zhao X, Tian Y Cell Reports Physical Science 4 (10) 101618 (2023)
  57. Adhami S M M, Narimisa M et al Applied Sciences 13 (13) 7619 (2023)
  58. Fromentin C, Silva T et al Plasma Sources Sci. Technol. 32 (5) 054004 (2023)
  59. Luo JingYi, Nie LanLan et al Plasma Processes & Polymers 20 (3) (2023)
  60. Khaji M, Degrez G, van der Mullen J Plasma Processes & Polymers 20 (5) (2023)
  61. Altin M, Vialetto L et al J. Phys. Chem. A 127 (1) 261 (2023)
  62. Hegemann D Plasma Processes & Polymers 20 (5) (2023)
  63. Li J, Lan C et al Chemical Engineering Journal 478 147483 (2023)
  64. Yong T, Zhong H et al Plasma Sources Sci. Technol. 32 (11) 115012 (2023)
  65. Engeling K W, Gott R P IEEE Trans. Plasma Sci. 51 (6) 1568 (2023)
  66. Belov S V, Danileiko Yu K et al Biomed Eng 57 (3) 153 (2023)
  67. Shu Zh, Qiao Ju et al Plasma Sources Sci. Technol. 32 (2) 025009 (2023)
  68. Wang X, Du X et al ACS Sustainable Chem. Eng. 11 (12) 4543 (2023)
  69. Li Zh, Wu E et al Physics of Plasmas 30 (8) (2023)
  70. Vadikkeettil Yu, Subramaniam Yu et al Renewable and Sustainable Energy Reviews 161 112343 (2022)
  71. Okubo M Plasma Chem Plasma Process 42 (1) 3 (2022)
  72. Babaeva N Yu, Buranov S N et al Plasma Phys. Rep. 48 (11) 1295 (2022)
  73. Kotov V Plasma Sources Sci. Technol. 31 (9) 094002 (2022)
  74. Ishikawa K Jpn. J. Appl. Phys. 61 (SA) SA0802 (2022)
  75. Nguyen A D, Scarsini M et al Agritech: Innovative Agriculture Using Microwaves and Plasmas Chapter 17 (2022) p. 327
  76. Ong M Y, Nomanbhay S et al Journal of Cleaner Production 336 130447 (2022)
  77. Belov S V, Danileiko Yu K et al Processes 10 (8) 1536 (2022)
  78. Lebedev Yu A, Shakhatov V A Plasma Phys. Rep. 48 (4) 415 (2022)
  79. Richards C, Jans E et al Plasma Sources Sci. Technol. 31 (9) 094011 (2022)
  80. Pokrovskiy G V, Popov N A, Starikovskaia S M Plasma Sources Sci. Technol. 31 (3) 035010 (2022)
  81. Marcantonio V, De Falco M, Bocci E Energies 15 (20) 7790 (2022)
  82. Esposito F Plasma Sources Sci. Technol. 31 (9) 094010 (2022)
  83. Ma H, Sharma R K et al Nat Commun 13 (1) (2022)
  84. Khaji M, Britun N et al Plasma Processes & Polymers 19 (2) (2022)
  85. Sidorov A V J. Phys. D: Appl. Phys. 55 (29) 293001 (2022)
  86. Li ZhiYu, Nie LanLan et al Plasma Processes & Polymers 19 (12) (2022)
  87. WANG Chuanqi, QIAO Junjie et al Plasma Sci. Technol. 24 (4) 045503 (2022)
  88. Britun N, Dennis Ch P R et al Plasma Sources Sci. Technol. 31 (12) 125012 (2022)
  89. Vervloessem E, Gorbanev Yu et al Green Chem. 24 (2) 916 (2022)
  90. Bunin I Zh, Anashkina N E et al Characterization of Minerals, Metals, and Materials 2022 The Minerals, Metals & Materials Series Chapter 20 (2022) p. 219
  91. Pietanza L D, Colonna G, Capitelli M Plasma Sources Sci. Technol. 31 (10) 104001 (2022)
  92. Belov S V, Danileyko Yu K et al Sci Rep 12 (1) (2022)
  93. Biondo O, Fromentin Ch et al Plasma Sources Sci. Technol. 31 (7) 074003 (2022)
  94. Renewable Hydrogen Production (2022) p. 343
  95. Lei XinYu, Cheng H et al Plasma Chem Plasma Process 42 (1) 211 (2022)
  96. Pandiyan A, Kyriakou V et al Journal of CO2 Utilization 57 101904 (2022)
  97. Chen G, Snyders R, Britun N Journal of CO2 Utilization 49 101557 (2021)
  98. Danilejko Yu K, Belov S V et al Plants 10 (10) 2161 (2021)
  99. Chen H, Yuan D et al Waste Dispos. Sustain. Energy 3 (3) 201 (2021)
  100. Belov S V, Danyleiko Yu K et al Front. Phys. 8 (2021)
  101. Harvey C, Vandenburg S, Ellingboe A R Current Applied Physics 28 45 (2021)
  102. Micca L G, Vialetto L et al Molecules 26 (12) 3663 (2021)
  103. SHU Zhan, WANG Chuanqi et al Plasma Sci. Technol. 23 (3) 035501 (2021)
  104. Chen H, Wu A et al Plasma Processes & Polymers 18 (7) (2021)
  105. Britun N, Gamaleev V, Hori M Plasma Sources Sci. Technol. 30 (8) 08LT02 (2021)
  106. Dinh D Kh, Muzammil I et al Plasma Sources Sci. Technol. 30 (5) 055020 (2021)
  107. Bahnamiri O S, Verheyen C et al Plasma Sources Sci. Technol. 30 (6) 065007 (2021)
  108. Zhou D, Zhou R et al Chemical Engineering Journal 421 129544 (2021)
  109. Lebedev Yu A, Shakhatov V A High Energy Chem 55 (6) 419 (2021)
  110. Pietanza L D, Guaitella O et al Eur. Phys. J. D 75 (9) (2021)
  111. Lisovskiy V, Dudin S et al EEJP (4) 152 (2021)
  112. Hasan M H, Mahlia T M I et al Energies 14 (13) 3732 (2021)
  113. Chepelev V M, Chistolinov A V et al J. Phys.: Conf. Ser. 2100 (1) 012029 (2021)
  114. Kotov V Plasma Sources Sci. Technol. 30 (5) 055003 (2021)
  115. Winter L R, Chen J G Joule 5 (2) 300 (2021)
  116. Subramanian P S G, J A et al Journal of Applied Physics 129 (9) (2021)
  117. Ranieri P, Sponsel N et al Plasma Processes & Polymers 18 (1) (2021)
  118. Pang Y, Su Ch et al Chem. Soc. Rev. 50 (22) 12744 (2021)
  119. Shah Ya T, Verma J, Katti S S Journal of the Indian Chemical Society 98 (10) 100152 (2021)
  120. Iriawan H, Andersen S Z et al Nat Rev Methods Primers 1 (1) (2021)
  121. Buck F, Wiegers K et al Journal of Industrial and Engineering Chemistry 104 1 (2021)
  122. Sharipov A S, Loukhovitski B I Chemical Physics 544 111098 (2021)
  123. Rouwenhorst K H R, van Rooij G J, Lefferts L Engineering Solutions for CO2 Conversion 1 (2021) p. 429
  124. Wolf A J, Righart T W H et al Plasma Sources Sci. Technol. 29 (2) 025005 (2020)
  125. Butterworth T, van de Steeg Alex et al Plasma Sources Sci. Technol. 29 (9) 095007 (2020)
  126. Buranov S N, Gorokhov V V et al Tech. Phys. 65 (5) 723 (2020)
  127. Fateev V N, Grigoriev S A, Seregina E A Nanotechnol Russia 15 (3-6) 256 (2020)
  128. Belov S V, Apasheva L M et al BIOPHYSICS 65 (2) 283 (2020)
  129. Vervloessem E, Aghaei M et al ACS Sustainable Chem. Eng. 8 (26) 9711 (2020)
  130. Sidorov A, Razin S et al Physics of Plasmas 27 (9) (2020)
  131. Kotov V J. Phys. B: At. Mol. Opt. Phys. 53 (17) 175104 (2020)
  132. Wolf A J, Peeters F J J et al J. Phys. Chem. C 124 (31) 16806 (2020)
  133. Khaji M, Peerenboom K et al J. Phys. D: Appl. Phys. 53 (39) 395201 (2020)
  134. Bunin I Zh, Chanturiya V A et al Bull. Russ. Acad. Sci. Phys. 84 (9) 1161 (2020)
  135. Shabarova L V, Sennikov P G et al High Energy Chem 54 (6) 469 (2020)
  136. Britun N, Godfroid T, Snyders R Journal of CO2 Utilization 41 101239 (2020)
  137. Verheyen C, Silva T et al Plasma Sources Sci. Technol. 29 (9) 095009 (2020)
  138. Barboun P M, Hicks Ja C Annu. Rev. Chem. Biomol. Eng. 11 (1) 503 (2020)
  139. Belov S V, Lobachevsky Ya P et al Applied Sciences 10 (24) 8971 (2020)
  140. Carbone E, D’Isa F et al Plasma Sources Sci. Technol. 29 (5) 055003 (2020)
  141. Mansfeld D, Sintsov S et al Journal of CO2 Utilization 40 101197 (2020)
  142. Tiwari S, Caiola A et al Plasma Chem Plasma Process 40 (1) 1 (2020)
  143. Stewig C, Schüttler S et al J. Phys. D: Appl. Phys. 53 (12) 125205 (2020)
  144. Damen M A, Martini L M, Engeln R Plasma Sources Sci. Technol. 29 (9) 095017 (2020)
  145. van de Steeg A W, Butterworth T et al Plasma Sources Sci. Technol. 29 (11) 115001 (2020)
  146. Moreno S H, Stankiewicz A I, Stefanidis G D React. Chem. Eng. 4 (7) 1253 (2019)
  147. (31ST INTERNATIONAL SYMPOSIUM ON RAREFIED GAS DYNAMICS: RGD31) Vol. 31ST INTERNATIONAL SYMPOSIUM ON RAREFIED GAS DYNAMICS: RGD31Overview and perspectives of KAPPA libraryL.CampoliG. P.OblapenkoE. V.Kustova2132 (2019) p. 150005
  148. Kotov V, Koelman P M J Plasma Sources Sci. Technol. 28 (9) 095002 (2019)
  149. Bosi F Ja Physics of Plasmas 26 (3) (2019)
  150. Peng P, Schiappacasse Ch et al ChemSusChem 12 (16) 3702 (2019)
  151. Moreno S H, Stankiewicz A I, Stefanidis G D React. Chem. Eng. 4 (12) 2108 (2019)
  152. van den Bekerom D C M, Linares J M P et al Plasma Sources Sci. Technol. 28 (5) 055015 (2019)
  153. Viegas P, van de Sanden Mauritius C M et al J. Phys. Chem. C 123 (37) 22823 (2019)
  154. Longo S, van de Sanden Mauritius C M, Diomede P Rend. Fis. Acc. Lincei 30 (1) 25 (2019)
  155. Wolf A J, Righart T W H et al Plasma Sources Sci. Technol. 28 (11) 115022 (2019)
  156. Butterworth T D, Amyay B et al Journal of Quantitative Spectroscopy and Radiative Transfer 236 106562 (2019)
  157. Bogaerts A, Snoeckx R An Economy Based on Carbon Dioxide and Water Chapter 8 (2019) p. 287
  158. Klarenaar B L M, Morillo-Candas A S et al Plasma Sources Sci. Technol. 28 (3) 035011 (2019)
  159. Bogaerts A, Neyts E C ACS Energy Lett. 3 (4) 1013 (2018)
  160. Bogaerts A, Snoeckx R et al Plasma Chemistry and Gas Conversion Chapter 2 (2018)
  161. Urbanietz T, Böke M et al J. Phys. D: Appl. Phys. 51 (34) 345202 (2018)
  162. Zhang D, Huang Q et al J. Phys. Chem. C 122 (34) 19338 (2018)
  163. Britun N, Silva T Plasma Chemistry and Gas Conversion Chapter 1 (2018)
  164. Diomede P, van de Sanden Mauritius C M, Longo S J. Phys. Chem. A 122 (39) 7918 (2018)
  165. Engeln R, Klarenaar B L M et al Light, Energy and the Environment 2018 (E2, FTS, HISE, SOLAR, SSL), (2018) p. EM2A.6
  166. Belov I, Vermeiren V et al Journal of CO2 Utilization 24 386 (2018)
  167. Li S, Medrano J et al Processes 6 (12) 248 (2018)
  168. Malanichev V E, Malashin M V et al Tech. Phys. 63 (11) 1596 (2018)
  169. Chen J G, Crooks R M et al Science 360 (6391) (2018)
  170. Goede A P H, Cifarelli L, Wagner F EPJ Web Conf. 189 00010 (2018)
  171. He Y, Chen Zh et al Front. Optoelectron. 11 (1) 92 (2018)
  172. Silva T, Grofulović M et al J. Phys. D: Appl. Phys. 51 (46) 464001 (2018)
  173. Yamazaki M, Nishiyama Sh, Sasaki K Appl. Phys. Express 11 (6) 066202 (2018)
  174. Britun N, Silva T et al J. Phys. D: Appl. Phys. 51 (14) 144002 (2018)
  175. van Rooij G J, Akse H N et al Plasma Phys. Control. Fusion 60 (1) 014019 (2018)
  176. Wang W, Mei D et al Chemical Engineering Journal 330 11 (2017)
  177. Ramakers M, Medrano J A et al Plasma Sources Sci. Technol. 26 (12) 125002 (2017)
  178. Ramakers M, Trenchev G et al ChemSusChem 10 (12) 2642 (2017)
  179. Adamovich I, Baalrud S D et al J. Phys. D: Appl. Phys. 50 (32) 323001 (2017)
  180. den Harder N, van den Bekerom D C M et al Plasma Processes & Polymers 14 (6) (2017)
  181. Sun S R, Wang H X et al Journal of CO2 Utilization 17 220 (2017)
  182. Bosi F J, Dobrynin D J. Phys. D: Appl. Phys. 50 (2) 025202 (2017)
  183. Bongers W, Bouwmeester H et al Plasma Processes & Polymers 14 (6) (2017)
  184. Barreto P R P, Euclides Henrique de O et al Eur. Phys. J. D 71 (10) (2017)
  185. Britun N, Chen G et al Green Chemical Processing and Synthesis Chapter 1 (2017)
  186. Wang L, Yi Ya et al Angewandte Chemie 129 (44) 13867 (2017)
  187. Diomede P, van de Sanden Mauritius C M, Longo S J. Phys. Chem. C 121 (36) 19568 (2017)
  188. Wang W, Patil B et al ChemSusChem 10 (10) 2145 (2017)
  189. Snoeckx R, Bogaerts A Chem. Soc. Rev. 46 (19) 5805 (2017)
  190. Bogaerts A, De Bie Ch et al Plasma Processes & Polymers 14 (6) (2017)
  191. Pachuilo M V, Stefani F et al IEEE Trans. Plasma Sci. 45 (7) 1776 (2017)
  192. Bogaerts A, Berthelot A et al Plasma Sources Sci. Technol. 26 (6) 063001 (2017)
  193. Ma J-L, Bao D et al Chem 2 (4) 525 (2017)
  194. Koelman P, Heijkers S et al Plasma Processes & Polymers 14 (4-5) (2017)
  195. Wang L, Yi Ya et al Angew Chem Int Ed 56 (44) 13679 (2017)
  196. Silva T, Britun N et al Plasma Processes & Polymers 14 (6) (2017)
  197. Levko D, Pachuilo M, Raja L L Physics of Plasmas 24 (9) 093513 (2017)
  198. Wang W, Berthelot A et al Plasma Sources Sci. Technol. 25 (6) 065012 (2016)
  199. Mitsingas C M, Rajasegar R et al IEEE Trans. Plasma Sci. 44 (4) 651 (2016)
  200. Patil B S, Cherkasov N et al Applied Catalysis B: Environmental 194 123 (2016)
  201. Ponduri S, Becker M M et al Journal of Applied Physics 119 (9) (2016)
  202. Grofulović M, Alves L L, Guerra V J. Phys. D: Appl. Phys. 49 (39) 395207 (2016)
  203. Petrov G M, Apruzese J P et al Journal of Applied Physics 119 (10) (2016)
  204. Malanichev V E, Malashin M V et al High Energy Chem 50 (4) 304 (2016)
  205. de la Fuente J F, Moreno S H et al React. Chem. Eng. 1 (5) 540 (2016)
  206. Sorokin I A, Vizgalov I V et al Bull. Lebedev Phys. Inst. 42 (12) 350 (2015)
  207. Heijkers S, Snoeckx R et al J. Phys. Chem. C 119 (23) 12815 (2015)
  208. Goede A P H, Cifarelli L, Wagner F EPJ Web of Conferences 98 07002 (2015)
  209. Blanchard N E, Hanselmann B et al Plasma Processes & Polymers 12 (1) 32 (2015)
  210. van Rooij G J, van den Bekerom D C M et al Faraday Discuss. 183 233 (2015)
  211. Czech T, Sobczyk A T, Jaworek A Eur. Phys. J. D 69 (10) (2015)
  212. Peerenboom K, Parente A et al Plasma Sources Sci. Technol. 24 (2) 025004 (2015)
  213. Duan X, Li Ya et al Greenhouse Gases 5 (2) 131 (2015)
  214. Janeco A, Pinhão N R, Guerra V J. Phys. Chem. C 119 (1) 109 (2015)
  215. Cherkasov N, Ibhadon A O, Fitzpatrick P Chemical Engineering and Processing: Process Intensification 90 24 (2015)
  216. Goede A P H, Bongers W A et al EPJ Web of Conferences 79 01005 (2014)
  217. Hegemann D Comprehensive Materials Processing (2014) p. 201
  218. Kozák Tomáš, Bogaerts A Plasma Sources Sci. Technol. 24 (1) 015024 (2014)
  219. Silva T, Britun N et al Plasma Sources Sci. Technol. 23 (2) 025009 (2014)
  220. Kozák Tomáš, Bogaerts A Plasma Sources Sci. Technol. 23 (4) 045004 (2014)
  221. Brehmer F, Welzel S et al Journal of Applied Physics 116 (12) (2014)
  222. Hegemann D J. Phys. D: Appl. Phys. 46 (20) 205204 (2013)
  223. Campbell L, Brunger M J Plasma Sources Sci. Technol. 22 (1) 013002 (2012)
  224. Shakhatov V A, Lebedev Yu A High Temp 49 (2) 257 (2011)
  225. Spencer L F, Gallimore A D Plasma Chem Plasma Process 31 (1) 79 (2011)
  226. Campbell L, Brunger M J Phys. Scr. 80 (5) 058101 (2009)
  227. Rond C, Bultel A et al Chemical Physics 354 (1-3) 16 (2008)
  228. Ghorbanzadeh A M, Modarresi H Journal of Applied Physics 101 (12) (2007)
  229. Yamamoto A, Mori Sh, Suzuki M Thin Solid Films 515 (9) 4296 (2007)
  230. Campbell L, Cartwright D C et al J. Geophys. Res. 111 (A9) (2006)
  231. Hayashi N, Yamakawa T, Baba S Vacuum 80 (11-12) 1299 (2006)
  232. Mori Sh, Yamamoto A, Suzuki M Plasma Sources Sci. Technol. 15 (4) 609 (2006)
  233. Ghorbanzadeh A M, Norouzi S, Mohammadi T J. Phys. D: Appl. Phys. 38 (20) 3804 (2005)
  234. Andreev S N, Zakharov V V et al Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 60 (14) 3361 (2004)
  235. Protasevich E T Tech. Phys. 48 (6) 795 (2003)
  236. Kudryashov S V, Shchegoleva G S et al High Energy Chemistry 36 (5) 349 (2002)
  237. Vol. 5th Korea-Russia International Symposium on Science and Technology. Proceedings. KORUS 2001 (Cat. No.01EX478)Directed oxidation of olefin hydrocarbons in a barrier electric discharge reactorS.V.KudrjashovA.Yu.RyabovG.S.SchegolevaE.E.Sirotkina2 (2001) p. 121
  238. Shuaibov A K, Shimon L L et al Plasma Phys. Rep. 27 (10) 897 (2001)
  239. SAKURAP Tsutomu, YOKOYAMA Atsushi Journal of Nuclear Science and Technology 37 (9) 814 (2000)
  240. (SAE Technical Paper Series) Vol. SAE Technical Paper SeriesPlasma-Catalytic Treatment of Organic Compounds in Atmospheric Pressure Non-Equilibrium DischargesO.Mutaf-YardimciL.A.KennedyS.A.NesterA.V.SavelievA.A.Fridman1 (1998)
  241. Fisher E M Combustion and Flame 108 (1-2) 127 (1997)
  242. Skrebkov O V Chemical Physics 191 (1-3) 87 (1995)
  243. de Gavelle de Roany A Chiroux, Flament C et al AIAA Journal 31 (1) 119 (1993)
  244. Lalo C, Deson J et al Plasma Chem Plasma Process 13 (2) 351 (1993)
  245. Flament C, George T et al Chemical Physics 163 (2) 241 (1992)
  246. Kalashnikov N A, Kalinichenko B S, Shvetsov I K At Energy 70 (3) 208 (1991)
  247. Bogdanov A N, Kulikovskii V A J Appl Mech Tech Phys 31 (5) 687 (1991)
  248. CHIROUX DE GAVELLE DE ROANY ALAIN, RICH J et al 28th Aerospace Sciences Meeting, (1990)
  249. Milikh G M J. Geophys. Res. 95 (D10) 16451 (1990)
  250. Kalashnikov N A, Kalinichenko B S et al At Energy 69 (1) 567 (1990)
  251. Bogatyreva E V, Lyubochko V A et al Journal of Engineering Physics 58 (5) 637 (1990)
  252. Guest G E, Dandl R A Plasma Chem Plasma Process 9 (S1) 55S (1989)
  253. Basov N G, Belenov E M et al J Russ Laser Res 10 (4) 332 (1989)
  254. Aurela A M, Punkkinen R, Bilund A J. Phys. D: Appl. Phys. 22 (5) 650 (1989)
  255. Rusanov V D, Fridman A A, Sholin G V Topics in Current Physics Vol. Nonequilibrium Vibrational KineticsVibrational Kinetics and Reactions of Polyatomic Molecules in Nonequilibrium Systems39 Chapter 10 (1986) p. 295
  256. McLaughlin D F, Christiansen W H The Journal of Chemical Physics 84 (5) 2643 (1986)
  257. Lashuk N A, Protasevich E T et al J Appl Mech Tech Phys 26 (5) 605 (1986)
  258. Gordiets B F, Zhdanok S Topics in Current Physics Vol. Nonequilibrium Vibrational KineticsAnalytical Theory of Vibrational Kinetics of Anharmonic Oscillators39 Chapter 3 (1986) p. 47
  259. Vikharev A L, Ivanov O A, Stepanov A N Radiophys Quantum Electron 28 (1) 26 (1985)
  260. Butakyi V I, Tel’nikhin A A Soviet Physics Journal 28 (2) 94 (1985)
  261. Kovalev A S, Rakhimov A T et al Gas Flow and Chemical Lasers Chapter 42 (1984) p. 417
  262. Kirillov I A, Potapkin B V et al J Appl Mech Tech Phys 25 (6) 878 (1984)
  263. Trajmar S, Cartwright D C Electron–Molecule Interactions and their Applications (1984) p. 155
© Успехи физических наук, 1918–2026
Электронная почта: ufn@ufn.ru Телефоны и адреса редакции О журнале Пользовательское соглашение