RSS feeds
ÐóññêèéEnglish
Issue 11, 2024
Volume year page
Issues Authors PACS Subscription For authors

Issues

 / 

1978

 / 

May

  

Reviews of topical problems


Stochastic self-oscillations and turbulence


Federal Research Center A.V. Gaponov-Grekhov Institute of Applied Physics of the Russian Academy of Sciences, ul. Ulyanova 46, Nizhny Novgorod, 603000, Russian Federation

Until quite recently, it was thought that turbulence, i.e., stochastic self-oscillations of a continuous medium, was related exclusively to the excitation of an exceedingly large number of degrees of freedom. This review is devoted to the discussion of new ideas on the nature of the unpredictable turbulent motions in dissipative media connected with the discovery of strange attractors, i.e., attractive regions in phase space within which all paths are unstable and behave in a very complex fashion (motions on an attractor of this kind are characterized by a continuous spectrum). Turbulence represented by a strange attractor is described by a finite number of degrees of freedom, i.e., modes whose physical nature may be different. The example of a simple electronic noise generator is used to illustrate how the instability (divergence) of such paths leads to stochastic behavior. The analysis is based on the introduction of a nonreciprocally single-valued Poincare mapping onto itself, which is then used to describe the strange attractors encountered in different physical problems. An example of this mapping is used to demonstrate the discrete, symbolic, description of dynamic systems. The properties of such systems which indicate their stochastic nature, for example, positive topologic entropy and hyperbolicity are discussed. Specific physical mechanisms leading to the appearance of stochastic behavior and characterized by a continuous time spectrum are discussed. Strange attractors that appear in the case of parametric instability of waves in plasmas, laser locking by an external field, and so on, are demonstrated. "Attractor models" of hydrodynamic turbulence are reviewed, and in particular, finite-dimensional hydrodynamic models of convection in a layer and of Couette flow between rotating cylinders are constructed and found to exhibit stochastic behavior.

Fulltext pdf (2.9 MB)
Fulltext is also available at DOI: 10.1070/PU1978v021n05ABEH005555
PACS: 47.25.-c, 02.50.Ey
DOI: 10.1070/PU1978v021n05ABEH005555
URL: https://ufn.ru/en/articles/1978/5/g/
Citation: Rabinovich M I "Stochastic self-oscillations and turbulence" Sov. Phys. Usp. 21 443–469 (1978)
BibTexBibNote ® (generic)BibNote ® (RIS)MedlineRefWorks

Îðèãèíàë: Ðàáèíîâè÷ Ì È «Ñòîõàñòè÷åñêèå àâòîêîëåáàíèÿ è òóðáóëåíòíîñòü» ÓÔÍ 125 123–168 (1978); DOI: 10.3367/UFNr.0125.197805g.0123

Cited by (174) ↓ Similar articles (20)

  1. Shoreh A A-H, Mahmoud G M Phys. Scr. 99 025212 (2024)
  2. Belyaev V S, Krainov V P, Matafonov A P Astronomičeskij žurnal 101 311 (2024)
  3. Belyaev V S, Krainov V P, Matafonov A P Astron. Rep. 68 356 (2024)
  4. Rozental R M, Klinshov V V et al 30 (8) (2023)
  5. Zhang X, Chen G J Dyn Control Syst 29 71 (2023)
  6. Vilkov M N, Ivanov A A, Rozental R M Radiophys Quantum El 65 349 (2022)
  7. Amirizadeh G, Yaghoobi M, Kobravi H R Int. J. Control Autom. Syst. 20 3088 (2022)
  8. Shoreh A A -H, Kuznetsov N V, Mokaev T N Physica A: Statistical Mechanics And Its Applications 586 126466 (2022)
  9. Fedotov A E, Rozental R M et al IEEE Electron Device Lett. 42 1073 (2021)
  10. Zhang F, Zhou P et al Jaac 11 1577 (2021)
  11. Dmitrenko A V, Kolosova M A Mir Transp. 18 108 (2021)
  12. Kuznetsov N, Reitmann V Emergence, Complexity And Computation Vol. Attractor Dimension Estimates for Dynamical Systems: Theory and ComputationDimension and Entropy Estimates for Dynamical Systems38 Chapter 5 (2021) p. 191
  13. Dmitrenko A V J Eng Phys Thermophy 94 186 (2021)
  14. Zhang F, Zhou P et al Int. J. Bifurcation Chaos 31 2150036 (2021)
  15. Dmitrenko A V J Eng Phys Thermophy 93 122 (2020)
  16. Shoreh Ahmed A -H, Kuznetsov N V, Mokaev T N 2020 16th International Computer Engineering Conference (ICENCO), (2020) p. 11
  17. Yang Y, Qi G et al Int. J. Bifurcation Chaos 30 2050072 (2020)
  18. Kuznetsov N V, Mokaev T N et al Nonlinear Dyn 102 713 (2020)
  19. Dmitrenko A V Continuum Mech. Thermodyn. 32 63 (2020)
  20. (PROCEEDINGS OF THE 45TH INTERNATIONAL CONFERENCE ON APPLICATION OF MATHEMATICS IN ENGINEERING AND ECONOMICS (AMEE’19)) Vol. PROCEEDINGS OF THE 45TH INTERNATIONAL CONFERENCE ON APPLICATION OF MATHEMATICS IN ENGINEERING AND ECONOMICS (AMEE’19)On hydrodynamic instabilities qua nonequilibrium phase transitionsE. V.RadkevichO. A.Vasil’eva2172 (2019) p. 030020
  21. 邓 生 AAM 08 1979 (2019)
  22. Pchelintsev A N, Polunovskiy A A, Yukhanova I Y Tamb. Un. Rep. Ser. Nat. Tech. Sci. (126) 187 (2019)
  23. Radkevich E V, Lukashev E A, Vasil’eva O A Dokl. Math. 99 308 (2019)
  24. Zhang F, Dashkovskiy S Complexity 2019 (1) (2019)
  25. Xin-lei An, Li Zh Nonlinear Dyn 94 2995 (2018)
  26. Kuznetsov N V, Leonov G A et al Nonlinear Dyn 92 267 (2018)
  27. Nyemkova E, Shandra Z et al Lecture Notes In Computer Science Vol. Computer Information Systems and Industrial ManagementNetwork Electronic Devices Authentication by Internal Electrical Noise11127 Chapter 39 (2018) p. 474
  28. Larionov N V, Ovchinnikov S Yu et al Tech. Phys. 63 1569 (2018)
  29. Danca M-F, Kuznetsov N V, Chen G 28 (1) (2018)
  30. Dmitrenko A V Continuum Mech. Thermodyn. 29 1 (2017)
  31. Chen G, Kuznetsov N V et al Int. J. Bifurcation Chaos 27 1750115 (2017)
  32. Danca M-F Nonlinear Dyn 89 577 (2017)
  33. Helleman R Universality in Chaos (2017) p. 420
  34. Zhang F, Liao X, Zhang G Nonlinear Dyn 88 1623 (2017)
  35. Dmitrenko A V Continuum Mech. Thermodyn. 29 1197 (2017)
  36. Radkevich E V, Vasil’eva O A J Math Sci 224 764 (2017)
  37. Anishchenko V S, Vadivasova T E, Strelkova G I Nonlinear Systems And Complexity Vol. Advances in Dynamics, Patterns, CognitionCoherence–Incoherence Transition and Properties of Different Types of Chimeras in a Network of Nonlocally Coupled Chaotic Maps20 Chapter 6 (2017) p. 79
  38. Lukashev E A, Radkevich E V et al (AIP Conference Proceedings) Vol. 1789 (2016) p. 020011
  39. Dudkowski D, Jafari S et al Physics Reports 637 1 (2016)
  40. Kuznetsov N V, Leonov G A et al (AIP Conference Proceedings) Vol. 1738 (2016) p. 210008
  41. Leonov G A, Kuznetsov N V, Mokaev T N Communications In Nonlinear Science And Numerical Simulation 28 166 (2015)
  42. Dmitrenko A V J Eng Phys Thermophy 88 1569 (2015)
  43. Ibragimov Kh O, Aliev K M, Abakarova N S Tech. Phys. 60 1252 (2015)
  44. Leonov G A, Kuznetsov N V, Mokaev T N Eur. Phys. J. Spec. Top. 224 1421 (2015)
  45. Leonov G A Dokl. Math. 91 352 (2015)
  46. Bunimovich L A Nonlinearity 27 R51 (2014)
  47. Ivanitskii G R, Deev A A, Khizhnyak E P Uspekhi Fizicheskikh Nauk 184 43 (2014) [Ivanitskii G R, Deev A A, Khizhnyak E P Phys.-Usp. 57 37 (2014)]
  48. Karamperidou Ch, Cane M A et al Clim Dyn 42 253 (2014)
  49. Pechenkin A Leonid Isaakovich Mandelstam Chapter 10 (2014) p. 151
  50. Francke R E, Pöschel T, Gallas Ja A C Studies In Computational Intelligence Vol. Selected Topics in Nonlinear Dynamics and Theoretical Electrical EngineeringInfinite Networks of Hubs, Spirals, and Zig-Zag Patterns in Self-sustained Oscillations of a Tunnel Diode and of an Erbium-doped Fiber-ring Laser483 Chapter 10 (2013) p. 181
  51. Francke R E, Pöschel T, Gallas Ja A C Studies In Computational Intelligence Vol. Selected Topics in Nonlinear Dynamics and Theoretical Electrical EngineeringInfinite Networks of Hubs, Spirals, and Zig-Zag Patterns in Self-sustained Oscillations of a Tunnel Diode and of an Erbium-doped Fiber-ring Laser459 Chapter 9 (2013) p. 161
  52. Leonov G A Journal Of Applied Mathematics And Mechanics 77 296 (2013)
  53. Francke R E, Pöschel T, Gallas Ja A C Phys. Rev. E 87 (4) (2013)
  54. Marov M Ya, Kolesnichenko A V Astrophysics And Space Science Library Vol. Turbulence and Self-OrganizationSelf-Organization of Developed Turbulence and Formation Mechanisms of Coherent Structures389 Chapter 6 (2013) p. 373
  55. Leonov G A Journal Of Applied Mathematics And Mechanics 76 129 (2012)
  56. Basok B I, Avramenko A A, Gotsulenko V V High Temp 49 900 (2011)
  57. Anishchenko V S, Astakhov V et al Nonlinear Dynamics of Chaotic and Stochastic Systems Springer Series In Synergetics Chapter 3 (2006) p. 307
  58. Slobodyan S M Meas Tech 49 1 (2006)
  59. Pastukhov V P, Chudin N V Jetp Lett. 82 356 (2005)
  60. Haken H Synergetics Chapter 1 (2004) p. 1
  61. Shalimov S L Jetp Lett. 77 534 (2003)
  62. LIU WENBO, CHEN GUANRONG Int. J. Bifurcation Chaos 13 261 (2003)
  63. Pechenkin A Studies In History And Philosophy Of Science Part B: Studies In History And Philosophy Of Modern Physics 33 269 (2002)
  64. Anishchenko V S, Neiman A B et al Uspekhi Fizicheskikh Nauk 169 7 (1999)
  65. Elson R C, Huerta R et al Journal Of Neurophysiology 82 115 (1999)
  66. Pyatnitskii L N J. Exp. Theor. Phys. 86 107 (1998)
  67. Leonov G A Journal Of Applied Mathematics And Mechanics 62 511 (1998)
  68. Koronovskii A A Tech. Phys. Lett. 24 665 (1998)
  69. Mikhailov A S, Loskutov A Yu Springer Series In Synergetics Vol. Foundations of Synergetics IISpatiotemporal Chaos52 Chapter 7 (1996) p. 99
  70. Barendregt H P, Dolgachev I V et al Encyclopaedia of Mathematics Chapter 5 (1995) p. 443
  71. Zhelezovskii E E, Lazerson A G, Ryazantsev A L Radiophys Quantum Electron 36 64 (1993)
  72. Abarbanel H D I, Brown R et al Rev. Mod. Phys. 65 1331 (1993)
  73. Anishchenko V S, Neiman A B, Safanova M A J Stat Phys 70 183 (1993)
  74. Chen Zh-M Chaos, Solitons & Fractals 3 575 (1993)
  75. Leonov G A, Boichenko V A Acta Appl Math 26 1 (1992)
  76. Tagg R NATO ASI Series Vol. Ordered and Turbulent Patterns in Taylor-Couette FlowA Guide to Literature Related to the Taylor-Couette Problem297 Chapter 32 (1992) p. 303
  77. Fedyanin V K, Rogankov V B Physics Letters A 160 274 (1991)
  78. Mikhailov A S, Loskutov A Yu Springer Series In Synergetics Vol. Foundations of Synergetics IISpatio-Temporal Chaos52 Chapter 7 (1991) p. 85
  79. Hazewinkel M Encyclopaedia of Mathematics Chapter 1 (1990) p. 1
  80. Haken H Synergetik Chapter 12 (1990) p. 341
  81. Yatsimirskii K B, Strizhak P E, Zakrevskaya L N Theor Exp Chem 26 161 (1990)
  82. Likhanskiĭ V V, Napartovich A P Sov. Phys. Usp. 33 228 (1990)
  83. Andryshkevich A V, Kipchatov A A Radiophys Quantum Electron 33 315 (1990)
  84. Medvedev B V Theor Math Phys 79 618 (1989)
  85. Lukashchuk S N, Fal’kovich G E, Chernykh A I J Appl Mech Tech Phys 30 95 (1989)
  86. Belykh V N, Verichev N N Radiophys Quantum Electron 31 503 (1988)
  87. Belykh V N, Verichev N N Radiophys Quantum Electron 31 657 (1988)
  88. Hellman E S, Lear K L, Harris J S 64 2798 (1988)
  89. Oraevskii A N, Protsenko I E et al Radiophys Quantum Electron 31 219 (1988)
  90. Abraham N B, Mandel P, Narducci L M Progress In Optics Vol. 25 (1988) p. 1
  91. Bergé P Advances in Turbulence Chapter 8 (1987) p. 56
  92. I L, Wu M-Sh Physics Letters A 124 271 (1987)
  93. Abraham N B, Albano A M et al Springer Series In Synergetics Vol. Instabilities and Chaos in Quantum OpticsExperimental Measurements of Transitions to Pulsations and Chaos in a Single Mode, Unidirectional Ring Laser with an Inhomogeneously-Broadened Medium34 Chapter 3 (1987) p. 49
  94. Stewart H B, Thompson J M T Dynamics And Stability Of Systems 1 87 (1986)
  95. Pikovskii A S Radiophys Quantum Electron 29 389 (1986)
  96. Cvetković V D Transp Porous Med 1 63 (1986)
  97. Robnik M Photophysics and Photochemistry in the Vacuum Ultraviolet Chapter 15 (1985) p. 579
  98. Oppo G L, Politi A Z. Physik B - Condensed Matter 59 111 (1985)
  99. Loshitskii P P, Chaika V E Radiophys Quantum Electron 28 567 (1985)
  100. Leven R W, Puttke R Contrib Plasma Phys 25 415 (1985)
  101. Landa P S, Perminov S M Radiophys Quantum Electron 28 284 (1985)
  102. Ezerskii A B, Kiyashko S V, Reutov V P Radiophys Quantum Electron 28 777 (1985)
  103. GOLDSTONE J A Laser Handbook (1985) p. 487
  104. Rogankov V B Acta Physica Hungarica 57 13 (1985)
  105. Kotomtseva L A, Loiko N A, Samson A M J. Opt. Soc. Am. B 2 232 (1985)
  106. Kats V A Radiophys Quantum Electron 28 107 (1985)
  107. Szépfalusy P, Tél T Physica D: Nonlinear Phenomena 16 252 (1985)
  108. Narducci L M, Tredicce J R et al Phys. Rev. A 32 1588 (1985)
  109. Rabinovich M I, Sushchik M M Laminar-Turbulent Transition Chapter 46 (1985) p. 375
  110. Pokrovskii L A Theor Math Phys 62 183 (1985)
  111. Medvedev B V Theor Math Phys 60 782 (1984)
  112. Landa P S, Perminov S M Soviet Physics Journal 27 928 (1984)
  113. Babitsky V I, Landa P S Z Angew Math Mech 64 329 (1984)
  114. Petrovskaya N V Fluid Dyn 19 190 (1984)
  115. Senchenkov I K Soviet Applied Mechanics 20 351 (1984)
  116. Greenside H S, Coughran W M Phys. Rev. A 30 398 (1984)
  117. Kashchenevskii L Ya Journal Of Engineering Physics 47 856 (1984)
  118. Deissler R G Rev. Mod. Phys. 56 223 (1984)
  119. Pikovsky A S Z. Physik B - Condensed Matter 55 149 (1984)
  120. Fowler A C Stud Appl Math 70 215 (1984)
  121. Schmutz M, Rueff M Physica D: Nonlinear Phenomena 11 167 (1984)
  122. Englund J C, Snapp R R, Schieve W C Progress In Optics Vol. 21 (1984) p. 355
  123. Kachanov Yu S, Levchenko V Ya J. Fluid Mech. 138 209 (1984)
  124. Haken H Springer Series In Synergetics Vol. SynergeticsChaos1 Chapter 12 (1983) p. 333
  125. Gaponov-Grekhov A V, Rabinovich M I Springer Series In Synergetics Vol. Synergetics of the BrainNonstationary Structures — Chaos and Order23 Chapter 18 (1983) p. 227
  126. Grigoryants V V, Smirnov V I, Chamorovskij Yu K Opt Quant Electron 15 363 (1983)
  127. Yoshida T, Mori H, Shigematsu H J Stat Phys 31 279 (1983)
  128. Dmitriev A S Radiophys Quantum Electron 26 795 (1983)
  129. Carmichael H J Lecture Notes In Physics Vol. Laser PhysicsChaos in nonlinear optical systems182 Chapter 5 (1983) p. 64
  130. Anishchenko V S, Astakhov V V et al Radiophys Quantum Electron 26 135 (1983)
  131. Dubois M, Rubio M A, Berge P Phys. Rev. Lett. 51 1446 (1983)
  132. Zel’dovich Ya B, Malomed B A Radiophys Quantum Electron 25 421 (1982)
  133. Dubois M Lecture Notes In Physics Vol. Stability of Thermodynamics SystemsExperimental aspects of the transition to turbulence in Rayleigh-Bénard convection164 Chapter 6 (1982) p. 177
  134. Mandel P, Agrawal G P Optics Communications 42 269 (1982)
  135. Jensen R V, Oberman C R Physica D: Nonlinear Phenomena 4 183 (1982)
  136. Bussac M N Phys. Scr. T2A 110 (1982)
  137. Carmichael H J, Snapp R R, Schieve W C Phys. Rev. A 26 3408 (1982)
  138. Velarde M G Nonlinear Phenomena at Phase Transitions and Instabilities Chapter 12 (1982) p. 205
  139. Kuznetsov S P Radiophys Quantum Electron 25 996 (1982)
  140. Abraham E, Smith S D Rep. Prog. Phys. 45 815 (1982)
  141. Velarde M G Lecture Notes In Physics Vol. Stability of Thermodynamics SystemsDissipative structures and oscillations in reaction-diffusion models with or without time-delay164 Chapter 9 (1982) p. 248
  142. Vyshkind S Ya, Dubinina E A et al Radiophys Quantum Electron 25 554 (1982)
  143. Haken H Synergetik Chapter 12 (1982) p. 341
  144. Benzi R, Vitaletti M, Vulpiani A J. Phys. A: Math. Gen. 15 883 (1982)
  145. Aldushin A P, Malomed B A Combust Explos Shock Waves 17 1 (1981)
  146. Grossmann S Verhandlungen der Gesellschaft Deutscher Naturforscher und Ärzte Chapter 9 (1981) p. 32
  147. Kravtsov Yu A, �tkin V S Radiophys Quantum Electron 24 679 (1981)
  148. Bogatyrev G P, GiLev V G Fluid Dyn 15 585 (1981)
  149. Moritz R E, Sutera A Advances In Geophysics Vol. Advances in Geophysics Volume 23The Predictability Problem: Effects of Stochastic Perturbations in Multiequilibrium Systems23 (1981) p. 345
  150. Hitzl D L Physica D: Nonlinear Phenomena 2 370 (1981)
  151. Deissler R G 24 1595 (1981)
  152. Jensen R V, Oberman C R Phys. Rev. Lett. 46 1547 (1981)
  153. Manley O P, Treve Y M Physics Letters A 82 88 (1981)
  154. Glushkov V M, Ivanov V V, Janenko V M Physica D: Nonlinear Phenomena 2 61 (1981)
  155. Treve Y M Journal Of Computational Physics 41 217 (1981)
  156. Grossmann S Verhandlungen Der Gesellschaft Deutscher Naturforscher Und Ärzte Vol. Verhandlungen der Gesellschaft Deutscher Naturforscher und ÄrzteDeterministisches Chaos111 Chapter 9 (1981) p. 32
  157. Robnik M J. Phys. A: Math. Gen. 14 3195 (1981)
  158. Chirikov B V, Izraelev F M Physica D: Nonlinear Phenomena 2 30 (1981)
  159. Bocharov E P, Korostelev G N Radiophys Quantum Electron 24 564 (1981)
  160. Ott E Rev. Mod. Phys. 53 655 (1981)
  161. Ott E The Theory of Chaotic Attractors Chapter 9 (1981) p. 103
  162. Benzi R, Sutera A, Vulpiani A J. Phys. A: Math. Gen. 14 L453 (1981)
  163. L’vov V S, Predtechensky A A Physica D: Nonlinear Phenomena 2 38 (1981)
  164. Manneville P, Pomeau Y Physica D: Nonlinear Phenomena 1 219 (1980)
  165. Vasilenko Yu G, Kuznetsov E A et al J Appl Mech Tech Phys 21 206 (1980)
  166. Sinai Ja G, Vul E B J Stat Phys 23 27 (1980)
  167. Gollub J P, Romer E J, Socolar J E J Stat Phys 23 321 (1980)
  168. Yamada T, Graham R Phys. Rev. Lett. 45 1322 (1980)
  169. Kutateladze S S Journal Of Engineering Physics 38 699 (1980)
  170. Dikhtyar V B Radiophys Quantum Electron 23 860 (1980)
  171. Krugljak Z B, Kuznetsov E A et al Physics Letters A 78 269 (1980)
  172. Hohenberg P C Light Scattering in Solids Chapter 3 (1979) p. 23
  173. Novikov A A, Sinitsyn V V, Tager A S Radiophys Quantum Electron 22 266 (1979)
  174. Vyshkind S Ya Radiophys Quantum Electron 21 1008 (1978)
© 1918–2024 Uspekhi Fizicheskikh Nauk
Email: ufn@ufn.ru Editorial office contacts About the journal Terms and conditions