Issues

 / 

1995

 / 

October

  

Reviews of topical problems


The theory of spatiotemporal evolution of nonequilibrium thermodynamic systems

,
Sumy State University, ul. Rimskogo-Korsakova 2, Sumy, 244007, Ukraine

A review of field theories of the new phase formation kinetics is presented based on the microscopic approach. The evolution of the system quenched across the first-order phase transition point is described in terms of the supersymmetric approach (which equally represents homogeneous and heterophase fluctuations). The dependences of the order parameter, susceptibilities, nonergodicity and memory parameters on the external conditions and the quenching rate are determined. The critical degree of nonequilibrium and the anharmonicity value for the transition from dissipative to reactive regimes (similar to the Belousov-Zhabotinsky reaction) are estimated.

Fulltext pdf (1014 KB)
Fulltext is also available at DOI: 10.1070/PU1995v038n10ABEH000112
PACS: 05.70.Fh, 05.70.Ln, 11.30.Pb, 64.70.Kb (all)
DOI: 10.1070/PU1995v038n10ABEH000112
URL: https://ufn.ru/en/articles/1995/10/a/
A1995TF63500001
Citation: Olemskoi A I, Koplyk I V "The theory of spatiotemporal evolution of nonequilibrium thermodynamic systems" Phys. Usp. 38 1061–1097 (1995)
BibTexBibNote ® (generic)BibNote ® (RIS)MedlineRefWorks

Оригинал: Олемской А И, Коплык И В «Теория пространственно-временнóй эволюции неравновесной термодинамической системы» УФН 165 1105–1144 (1995); DOI: 10.3367/UFNr.0165.199510a.1105

References (51) Cited by (34) ↓ Similar articles (20)

  1. Potekaev A I, Klopotov A A et al Advanced Structured Materials Vol. Alloys Based on TiNi in Pre-transition Low-Stability StatesIntroduction216 Chapter 1 (2024) p. 1
  2. Frolov A M, Krainova G S, Dolzhikov S V J. Synch. Investig. 12 370 (2018)
  3. Hlushak P, Tokarchuk M Physica A: Statistical Mechanics And Its Applications 443 231 (2016)
  4. Baranov S A Handbook of Nanoelectrochemistry Chapter 44 (2016) p. 1057
  5. Baranov S A Handbook of Nanoelectrochemistry Chapter 44-1 (2015) p. 1
  6. Mokshin A V Theor Math Phys 183 449 (2015)
  7. Shikin V Physica B: Condensed Matter 460 126 (2015)
  8. Pisarenko T A, Frolov A, Kraynova G SSP 215 190 (2014)
  9. Leiderer P, Shikin V J Low Temp Phys 162 693 (2011)
  10. Shikin V B Uspekhi Fizicheskikh Nauk 181 1241 (2011)
  11. Yudin V V, Yudin V V i dr Teor. Mat. Fiz. 164 88 (2010) [Yudin V V, Titov P L, Mikhalyuk A N Theor Math Phys 164 905 (2010)]
  12. Shikin V, Klinovaya E 36 142 (2010)
  13. Kinetics of First‐Order Phase Transitions 1 (2009) p. 399
  14. Borman V D, Zenkevich A V et al J. Exp. Theor. Phys. 103 850 (2006)
  15. Shikina Yu V, Shikin V B J. Exp. Theor. Phys. 100 449 (2005)
  16. Olemskoi A, Savelyev A Physics Reports 419 145 (2005)
  17. Shikin V B Jetp Lett. 76 660 (2002)
  18. Yudin V V, Shchegoleva S A, Pisarenko T A Phys. Solid State 43 2074 (2001)
  19. Olemskoi A I Uspekhi Fizicheskikh Nauk 171 503 (2001)
  20. Berezovsky S V, Klepikov V F J. Phys.: Condens. Matter 12 311 (2000)
  21. Alekseyev D V J Min Sci 36 17 (2000)
  22. Olemskoi A I, Khomenko A V Tech. Phys. 45 677 (2000)
  23. Lad’yanov V I, Vasin M G et al Phys. Rev. B 62 12107 (2000)
  24. Borman V D, Zenkevich A V et al Jetp Lett. 72 148 (2000)
  25. Olemskoi A I, Klepikov V F Physics Reports 338 571 (2000)
  26. Olemskoi A I Physica A: Statistical Mechanics And Its Applications 270 444 (1999)
  27. Olemskoi A I, Brazhnyi V A Phys. Solid State 41 1547 (1999)
  28. Klotins E, Stemberg A, Kundzins K Ferroelectrics 235 97 (1999)
  29. Olemskoi A I, Brazhnyi V A Physica A: Statistical Mechanics And Its Applications 273 368 (1999)
  30. Chikina I 109 2429 (1998)
  31. Dinariev O Yu Russ Phys J 41 555 (1998)
  32. Kukushkin S A, Osipov A V J. Exp. Theor. Phys. 86 1201 (1998)
  33. Olemskoi A I Uspekhi Fizicheskikh Nauk 168 287 (1998) [Olemskoi A I Phys.-Usp. 41 269 (1998)]
  34. Rudyi A S Tech. Phys. 43 1 (1998)

© 1918–2024 Uspekhi Fizicheskikh Nauk
Email: ufn@ufn.ru Editorial office contacts About the journal Terms and conditions