RSS feeds
РусскийEnglish
Issue 2, 2026
Volume year page
Issues Authors PACS Subscription For authors

Issues

 / 

2016

 / 

November

  

On the 100th anniversary of the birth of V.L. Ginzburg


Dynamic properties of ionospheric plasma turbulence driven by high-power high-frequency radiowaves

,  a,  b,  c
a Scientific Research Institute of Radio Physics, ul. B. Pecherskaya 25, Nizhnii Novgorod, 603600, Russian Federation
b Space Vehicles Directorate, Air Force Research Laboratory, Kirtland Air Force Base, New Mexico
c N.I. Lobachevskii Nizhnii Novgorod State University, prosp. Gagarina 23, Nizhnii Novgorod, Russian Federation

A review is given of the current state-of-the-art of experimental studies and theoretical understanding of nonlinear phenomena that occur in the F-region ionosphere irradiated by high-power high-frequency ground-based transmitters. The main focus is on the dynamic features of high-frequency turbulence (plasma waves) and low-frequency turbulence (density inhomogeneities of various scales) that have been studied at the SURA and HAARP heating facilities operated in temporal and frequency regimes specially designed with consideration of the characteristic properties of nonlinear processes in the perturbed ionosphere using modern radio receivers and optical instruments. Experimental results are compared with theoretical turbulence models for a magnetized collisional plasma in a high-power electromagnetic field, allowing the identification of the processes responsible for the observed features of artificial ionospheric turbulence.

Fulltext pdf (1.6 MB)
Fulltext is also available at DOI: 10.3367/UFNe.2016.07.037868
Keywords: ionosphere, pump wave, magnetoactive plasma, artificial ionospheric turbulence, plasma waves, small-scale irregularities, stimulated electromagnetic emission, electron acceleration, artificial optical emission, artificial ionization layers
PACS: 52.25.Os, 52.35.Mw, 52.35.Ra, 52.50.Qt, 94.20.Tt (all)
DOI: 10.3367/UFNe.2016.07.037868
URL: https://ufn.ru/en/articles/2016/11/b/
000396002700002
2-s2.0-85012991791
2016PhyU...59.1091G
Citation: Grach S M, Sergeev E N, Mishin E V, Shindin A V "Dynamic properties of ionospheric plasma turbulence driven by high-power high-frequency radiowaves" Phys. Usp. 59 1091–1128 (2016)
BibTexBibNote ® (generic)BibNote ® (RIS)MedlineRefWorks

Received: 28th, June 2016, 6th, July 2016

Оригинал: Грач С М, Сергеев Е Н, Мишин Е В, Шиндин А В «Динамические характеристики плазменной турбулентности ионосферы, инициированной воздействием мощного коротковолнового радиоизлучения» УФН 186 1189–1228 (2016); DOI: 10.3367/UFNr.2016.07.037868

References (213) Cited by (62) ↓

  1. Kirillin M, Sergeeva E et al JGR Space Physics 131 (2) (2026)
  2. Eliasson B, Bernhardt P A Physics of Plasmas 32 (1) (2025)
  3. Bahmetieva N, Grigoriev G et al Solnechno-Zemnaya Fizika 11 (3) (2025)
  4. Khan A G, Muddassar M et al Axioms 14 (6) 405 (2025)
  5. Bahmetieva N, Grigoriev G et al Solar-Terrestrial Physics 11 (3) (2025)
  6. Alilou S, Shahrassai L, Sobhanian S Iran J Sci 49 (5) 1423 (2025)
  7. Khashev V R, Grach S M et al Radiophys Quantum El 68 (1) 1 (2025)
  8. Borisova T, Blagoveshchenskaya N et al Solar-Terrestrial Physics 10 (2) 74 (2024)
  9. Esmaeili-Karnawah A, Fallah R et al Heliyon 10 (24) e40963 (2024)
  10. Ivoninsky A V, Kudrin A V, Shchapina N V Radiophys Quantum El 67 (7) 518 (2024)
  11. Borisova T, Blagoveshchenskaya N et al Solnechno-Zemnaya Fizika 10 (2) 79 (2024)
  12. Aidakina N A, Korobkov S V et al Physics of Plasmas 31 (12) (2024)
  13. LaBelle Ja Front. Astron. Space Sci. 10 (2023)
  14. Borisova T, Blagoveshchenskaya N, Kalishin A Solar-Terrestrial Physics 9 (1) 21 (2023)
  15. Borisova T, Blagoveshchenskaya N, Kalishin A Solnechno-Zemnaya Fizika 9 (1) 22 (2023)
  16. Isham B, Bullett T et al Front. Astron. Space Sci. 10 (2023)
  17. Demekhov A G Radiophys Quantum El 65 (2) 73 (2022)
  18. Mishin E V, Streltsov A V Nonlinear Wave and Plasma Structures in the Auroral and Subauroral Geospace (2022) p. 345
  19. Beletsky A B, Tkachev I D et al Atmosphere 13 (11) 1794 (2022)
  20. Legostaeva Yu, Shindin A, Grach S Solnechno-Zemnaya Fizika 8 (3) 74 (2022)
  21. Zudin I Yu, Gushchin M E et al Jetp Lett. 116 (1) 41 (2022)
  22. Kogogin D, Maksimov D et al 2022 IEEE 8th All-Russian Microwave Conference (RMC), (2022) p. 254
  23. Legostaeva Yu, Shindin A, Grach S Solar-Terrestrial Physics 8 (3) 69 (2022)
  24. Legostaeva Yu K, Shindin A V, Grach S M Geomagn. Aeron. 61 (3) 389 (2021)
  25. Kalishin A S, Blagoveshchenskaya N F et al Russ. Meteorol. Hydrol. 46 (4) 231 (2021)
  26. Shindin A V, Sergeev E N et al Remote Sensing 13 (23) 4895 (2021)
  27. Consolini G, Tozzi R et al Journal Of Atmospheric And Solar-Terrestrial Physics 217 105531 (2021)
  28. Shindin A V 2021 XXXIVth General Assembly and Scientific Symposium of the International Union of Radio Science (URSI GASS), (2021) p. 1
  29. Yasyukevich Yu V, Syrovatskiy S V et al Radiophys Quantum El 62 (12) 807 (2020)
  30. Hashev V R, Shindin A V et al 2020 XXXIIIrd General Assembly and Scientific Symposium of the International Union of Radio Science, (2020) p. 1
  31. Legostaeva J, Shindin A, Grach S 2020 XXXIIIrd General Assembly and Scientific Symposium of the International Union of Radio Science, (2020) p. 1
  32. Kogogin D A, Nasyrov I A et al Radiophys Quantum El 63 (2) 83 (2020)
  33. Borisova T D, Blagoveshchenskaya N F et al Radiophys Quantum El 62 (12) 793 (2020)
  34. Vasilyev R, Setov A et al Solnechno-Zemnaya Fizika 6 (2) 61 (2020)
  35. De Michelis P, Pignalberi A et al JGR Space Physics 125 (8) (2020)
  36. De Michelis P, Tozzi R The Dynamical Ionosphere (2020) p. 301
  37. Vasilyev R, Setov A et al Solar-Terrestrial Physics 6 (2) 49 (2020)
  38. Chernyshov A A, Chugunin D V et al Geophysical Research Letters 47 (13) (2020)
  39. Borisova T D, Blagoveshchenskaya N F et al Radiophys Quantum El 61 (10) 722 (2019)
  40. Lukianova R, Frolov V, Ryabov A Geophysical Research Letters 46 (22) 12731 (2019)
  41. Starodubtsev M, Korobkov S et al Physics of Plasmas 26 (7) (2019)
  42. Kvammen A, Gustavsson B et al JGR Space Physics 124 (4) 2992 (2019)
  43. Tulegenov B, Streltsov A V et al JGR Space Physics 124 (5) 3255 (2019)
  44. Yampolski Yu, Milikh G et al Front. Astron. Space Sci. 6 (2019)
  45. Sklizkov G V, Shelobolin A V Plasma Phys. Rep. 45 (9) 863 (2019)
  46. Shindin A, Grach S et al 2019 Russian Open Conference on Radio Wave Propagation (RWP), (2019) p. 261
  47. Heelis T J, Ronald K, Eliasson B Plasma Phys. Control. Fusion 61 (3) 035013 (2019)
  48. Shindin A V, Grach S M et al Geophysical Research Letters 46 (11) 5653 (2019)
  49. Kogogin D, Nasyrov I et al 2019 Russian Open Conference on Radio Wave Propagation (RWP), (2019) p. 300
  50. Shindin A, Sergeev E et al 2019 Russian Open Conference on Radio Wave Propagation (RWP), (2019) p. 257
  51. Aidakina N, Gushchin M et al Physics of Plasmas 25 (12) (2018)
  52. Aidakina N, Gushchin M et al Physics of Plasmas 25 (7) (2018)
  53. Blagoveshchenskaya N F, Borisova T D et al Cosmic Res 56 (1) 11 (2018)
  54. Grach S M, Nasyrov I A et al Radiophys Quantum El 61 (3) 161 (2018)
  55. Pogorelko N A, Sergeev E N et al Radiophys Quantum El 61 (2) 83 (2018)
  56. Sergeev E N, Grach S M et al Radio Science 53 (12) 1506 (2018)
  57. Ivoninsky A V, Kudrin A V Physics of Plasmas 25 (10) (2018)
  58. Vysikaylo P I, Nekrasov G Yu, Pronin N A Bulletin Of The MSRU (Physics And Mathematics, 4) 36 (2018)
  59. Bakhmetieva N V, Frolov V L et al Advances In Space Research 61 (7) 1919 (2018)
  60. Rexer T, Gustavsson B et al JGR Space Physics 123 (10) 8649 (2018)
  61. Speirs D C, Eliasson B, Daldorff L K S JGR Space Physics 122 (10) (2017)
  62. Najmi A, Eliasson B et al Physics of Plasmas 24 (10) (2017)
© 1918–2026 Uspekhi Fizicheskikh Nauk
Email: ufn@ufn.ru Editorial office contacts About the journal Terms and conditions