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Issue 4, 2024
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1988

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December

  

Reviews of topical problems


Charged dislocations and properties of alkali halide crystals

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Theoretical and experimental investigations of charged dislocations in alkali halide crystals are reviewed. A description is given of the fine structure of an edge dislocation with defects on the dislocation line. A systematic account is given of theories of a sessile charged dislocation ranging from its representation by an infinitely long charged filament to an allowance for the fine structure of the dislocation line. Phenomenological models dealing with a charge on a moving dislocation are discussed. Forces acting on a dislocation are considered and the characteristics of its motion under the influence of an external mechanical load and of an electric field are dealt with. The direct and converse dislocation piezoelectric effects are described for a crystal containing mobile charged dislocations. In presentation of experimental results special attention is given to studies providing quantitative estimates of the linear charge density on a dislocation.

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Fulltext is also available at DOI: 10.1070/PU1988v031n12ABEH005660
PACS: 61.72.Bb, 61.72.Hh, 72.50.+b (all)
DOI: 10.1070/PU1988v031n12ABEH005660
URL: https://ufn.ru/en/articles/1988/12/b/
Citation: Tyapunina N A, Belozerova É P "Charged dislocations and properties of alkali halide crystals" Sov. Phys. Usp. 31 1060–1084 (1988)
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Оригинал: Тяпунина Н А, Белозерова Э П «Заряженные дислокации и свойства щелочногалоидных кристаллов» УФН 156 683–717 (1988); DOI: 10.3367/UFNr.0156.198812c.0683

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  1. Zuñiga-Puelles E, Levytskyi V et al Phys. Rev. B 107 (19) (2023)
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  3. Sharma S K, Chauhan V S, Sinapius M J Mater Sci 56 4500 (2021)
  4. Smirnov N E, Pronin P I Physics Letters A 382 2245 (2018)
  5. Smirnov N E Moscow Univ. Phys. 73 573 (2018)
  6. Pronin P I, Smirnov N E Moscow Univ. Phys. 71 155 (2016)
  7. Pronin P I, Smirnov N E Moscow Univ. Phys. 71 349 (2016)
  8. Galustashvili M V, Akopov F Kh et al Phys. Solid State 58 557 (2016)
  9. Gestrin S G, Shchukina E V Russ Phys J 57 1697 (2015)
  10. Galustashvili M V, Driaev D G et al Phys. Solid State 55 1676 (2013)
  11. Shekoyan A V Phys. Solid State 54 816 (2012)
  12. V D S, A N A et al 4 1079 (2011)
  13. Shekoyan A V J. Contemp. Phys. 46 70 (2011)
  14. Dmitriev S V, Pshenichnyuk A I et al Modelling Simul. Mater. Sci. Eng. 18 025012 (2010)
  15. Nazarova A A, Dmitriev S V et al Phys. Solid State 52 2490 (2010)
  16. Alshits V I, Darinskaya E V, Petrzhik E A Crystallogr. Rep. 54 954 (2009)
  17. Alshits V I, Darinskaya E V et al 105 (6) (2009)
  18. Alshits V I, Darinskaya E V et al Dislocations In Solids Vol. A Tribute to F.R.N. NabarroMagnetoplastic Effect in Nonmagnetic Crystals14 (2008) p. 333
  19. Al’shits V I, Darinskaya E V et al Jetp Lett. 88 428 (2008)
  20. Gestrin S G, Sal’nikov A N, Samorodina T V Russ Phys J 48 867 (2005)
  21. Golovin Yu I Phys. Solid State 46 789 (2004)
  22. Alshits V I, Darinskaya E V et al Crystallogr. Rep. 48 768 (2003)
  23. Urusovskaya A A, Alshits V I et al Crystallogr. Rep. 48 796 (2003)
  24. Zadorozhnyĭ F M, Gestrin S G, Sal’nikov A N Opt. Spectrosc. 95 381 (2003)
  25. Urusovskaya A A, Al’shits V I et al Phys. Solid State 42 274 (2000)
  26. Ostrovskii I V, Korotchenkov O A et al Physics Reports 311 1 (1999)
  27. Gestrin S G, Zadorozhnyi F M, Sal’nikov A N Russ Phys J 41 156 (1998)
  28. Malashenko V V Phys. Solid State 39 428 (1997)
  29. Gestrin S G, Sal’nikov A N, Struleva E V Russ Phys J 39 73 (1996)
  30. Gestrin S G, Sal’nikov A N, Struleva E V Russ Phys J 39 934 (1996)
  31. Tanibayashi M J. Phys. Soc. Jpn. 63 168 (1994)
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