Issues

 / 

2007

 / 

September

  

Methodological notes


A note on the possible mechanisms of high-temperature superconductivity

 a,  a, b
a Lebedev Physical Institute, Russian Academy of Sciences, Leninsky prosp. 53, Moscow, 119991, Russian Federation
b Max-Planck Institut für Festkörperforschung, Stuttgart, Germany

Possible mechanisms of high-temperature superconductivity are briefly discussed. In particular, a recent paper by P W Anderson on this problem is criticized as containing a number of incorrect and unfounded statements. One of these — that the static dielectric function ε(q, 0) cannot be negative — is discussed in detail, as is its consequence, a strong limit on the transition temperature Tc. Proofs are given that ε(q, 0) not only can but indeed must be negative in many stable systems, including most of the conventional metals. Various types of electron-electron interaction in superconducting cuprates are discussed. The role of the electron-phonon interaction in cuprates is highlighted.

Fulltext pdf (124 KB)
Fulltext is also available at DOI: 10.1070/PU2007v050n09ABEH006213
PACS: 71.10.Ay, 71.15.Mb, 74.20.−z, 74.72.−h (all)
DOI: 10.1070/PU2007v050n09ABEH006213
URL: https://ufn.ru/en/articles/2007/9/c/
000252639900003
2-s2.0-38349019838
2007PhyU...50..933M
Citation: Maksimov E G, Dolgov O V "A note on the possible mechanisms of high-temperature superconductivity" Phys. Usp. 50 933–937 (2007)
BibTexBibNote ® (generic)BibNote ® (RIS)MedlineRefWorks

Оригинал: Максимов Е Г, Долгов О В «О возможных механизмах высокотемпературной сверхпроводимости» УФН 177 983–988 (2007); DOI: 10.3367/UFNr.0177.200709c.0983

References (39) Cited by (48) ↓ Similar articles (14)

  1. Yu K M, I K K et al Springer Series In Solid-State Sciences Vol. Electronic Phase Separation in Magnetic and Superconducting MaterialsPhase Separation in Strongly Correlated Systems with Two Electron Bands201 Chapter 5 (2024) p. 67
  2. Kharlamov V F CAM 2 (1) (2023)
  3. Kharlamov V F Sci Rep 12 (1) (2022)
  4. Kharlamov V F Sci Rep 12 (1) (2022)
  5. Ekino T, Iwano M et al Phys. Rev. B 104 (5) (2021)
  6. Ara J, Coloma L, Tkachenko I M 28 (11) (2021)
  7. Kagan M Yu, Kugel K I, Rakhmanov A L Physics Reports 916 1 (2021)
  8. Arkhipov Yu V, Ashikbayeva A et al Phys. Rev. E 102 (5) (2020)
  9. Kharlamov V F J. Synch. Investig. 14 1410 (2020)
  10. Filippov A V, Fortov V E et al 10 (4) (2020)
  11. Gupta A, Verma S K et al Journal Of Physics And Chemistry Of Solids 134 83 (2019)
  12. Kharlamov V F J. Synch. Investig. 13 1306 (2019)
  13. Keikimanova M T, Muratova G I et al J. Exp. Theor. Phys. 128 932 (2019)
  14. Rogov A P, Kharlamov V F Rossijskie Nanotehnologii 14 11 (2019)
  15. Rogov A P, Kharlamov V F Nanotechnol Russia 14 197 (2019)
  16. Gupta A, Kumari A et al Physica C: Superconductivity And Its Applications 551 55 (2018)
  17. Gulian M, Melkonyan G, Kasthurirengan S Quantum Stud.: Math. Found. 5 89 (2018)
  18. Bondarenko S I, Koverya V P et al 43 1125 (2017)
  19. Gabovich A M, Voitenko A I 43 1172 (2017)
  20. Bianconi A, Jarlborg T 1 (1) (2015)
  21. Özdemir Z G, Çataltepe Ö A, Onbaşlı Ü Int. J. Mod. Phys. B 29 1550205 (2015)
  22. Zhilyaev I J Supercond Nov Magn 28 327 (2015)
  23. Bianconi A, Jarlborg T EPL 112 37001 (2015)
  24. Arkhipov Yu V, Ashikbayeva A B et al Phys. Rev. E 90 (5) (2014)
  25. Arkhipov Yu V, Ashikbayeva A B et al Contrib. Plasma Phys. 53 375 (2013)
  26. Gabovich A M, Voitenko A I 39 232 (2013)
  27. Gabovich A M, Li M S et al Phys. Rev. B 87 (10) (2013)
  28. Filippov A V, Starostin A N et al Contrib. Plasma Phys. 53 442 (2013)
  29. Zhilyaev I N 38 1063 (2012)
  30. Bordovsky G A, Nemov S A et al Semiconductors 46 1 (2012)
  31. Belogolovskii M, Jung G et al 109 (7) (2011)
  32. van Wezel Ja, Schuster R et al Phys. Rev. Lett. 107 (17) (2011)
  33. Quémerais P, Chuev G N New J. Phys. 12 023030 (2010)
  34. Feher A, Feodosyev S B et al DDF 297-301 75 (2010)
  35. Maksimov E G, Kulić M L, Dolgov O V Advances In Condensed Matter Physics 2010 1 (2010)
  36. Bordovskii G A, Terukov E I et al Phys. Solid State 51 2221 (2009)
  37. On Superconductivity and Superfluidity Chapter 3 (2009) p. 99
  38. Shneyder E I, Ovchinnikov S G J. Exp. Theor. Phys. 109 1017 (2009)
  39. Mishchenko A S Uspekhi Fizicheskikh Nauk 179 1259 (2009)
  40. Gabovich A M, Voitenko A I Phys. Rev. B 80 (22) (2009)
  41. On Superconductivity and Superfluidity Chapter 2 (2009) p. 36
  42. Ivanova N B, Ovchinnikov S G et al Uspekhi Fizicheskikh Nauk 179 837 (2009)
  43. Alexandrov A S, Bratkovsky A M Phys. Rev. B 80 (11) (2009)
  44. Okulov A Yu Laser Phys. 19 1796 (2009)
  45. Gulian A M, Harutyunyan A R Physics Letters A 373 3392 (2009)
  46. Bordovskii G A, Marchenko A V, Seregin P P Glass Phys Chem 35 643 (2009)
  47. Sboychakov A O, Savel’ev S et al Phys. Rev. B 77 (22) (2008)
  48. Maksimov E G Uspekhi Fizicheskikh Nauk 178 175 (2008)

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