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Issue 11, 2024
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PACS numbers

74.20.Fg BCS theory and its development
  1. M.I. Eremets, A.P. Drozdov “High-temperature conventional superconductivityPhys. Usp. 59 1154–1160 (2016)
    74.20.Fg, 74.62.Fj, 74.70.−b (all)
  2. M.V. Sadovskii “High-temperature superconductivity in monolayers FeSePhys. Usp. 59 947–967 (2016)
    74.20.−z, 74.20.Fg, 74.20.Mn, 74.20.Rp, 74.25.Jb, 74.62.−c, 74.70.−b (all)
  3. L.P. Pitaevskii “Superfluid Fermi liquid in a unitary regimePhys. Usp. 51 603–608 (2008)
    05.30.Fk, 71.10.−w, 74.20.Fg (all)
  4. V.R. Shaginyan, M.Ya. Amusia, K.G. Popov “Universal behavior of strongly correlated Fermi systemsPhys. Usp. 50 563–593 (2007)
    71.27.+a, 74.20.Fg, 74.25.Jb (all)
  5. P.I. Arseev, S.O. Loiko, N.K. Fedorov “Theory of gauge-invariant response of superconductors to an external electromagnetic fieldPhys. Usp. 49 1–18 (2006)
    74.20.Fg, 74.25.Nf, 74.81.−g (all)
  6. J. Delft, D.S. Golubev et alThe parity effect in small superconducting granulesPhys. Usp. 39 848–848 (1996)
    74.20.Fg, 74.90.+n (all)
  7. A.S. Alexandrov, A.B. Krebs “Polarons in high-temperature superconductorsSov. Phys. Usp. 35 (5) 345–383 (1992)
    71.38.Mx, 74.20.Fg, 74.72.−h, 74.25.Kc, 74.25.Op (all)
  8. M.F. Sarry “Analytical methods of calculating correlation functions in quantum statistical physicsSov. Phys. Usp. 34 (11) 958–979 (1991)
    05.30.−d, 05.50.+q, 75.10.Jm, 75.10.Lp, 74.20.Fg (all)
  9. N.V. Zavaritskii “The energy gap in the electron excitation spectrum of oxide superconductorsSov. Phys. Usp. 33 (9) 775–791 (1990)
    74.25.Jb, 74.50.+r, 74.20.Fg, 74.72.Dn, 71.18.+y, 74.25.Gz (all)
  10. M.Yu. Kupriyanov, K.K. Likharev “Josephson effect in high-temperature superconductors and in structures based on themSov. Phys. Usp. 33 (5) 340–364 (1990)
    74.50.+r, 74.78.Bz, 74.45.+c, 61.72.Mm, 74.20.Fg (all)
  11. V.L. Ginzburg, D.A. Kirzhnits “High-temperature superconductivity (a review of theoretical ideas)Sov. Phys. Usp. 30 671–675 (1987)
    74.72.−h, 74.20.Fg, 74.25.Kc (all)
  12. I.O. Kulik “Superconductivity of narrow-band metals and semiconductors and the model of superconducting glassSov. Phys. Usp. 28 97–99 (1985)
    74.20.Fg, 74.25.Kc, 74.25.Ha, 74.25.Dw, 74.70.−b (all)
  13. V.L. Ginzburg “THE PROBLEM OF HIGH-TEMPERATURE SUPERCONDUCTIVITY. IISov. Phys. Usp. 13 335–352 (1970)
    74.10.+v, 74.62.−c, 74.20.Fg (all)
  14. E.L. Feinberg “VITALII LAZAREVICH GINZBURG (On his fiftieth birthday)Sov. Phys. Usp. 9 782–784 (1967)
    41.60.Bq, 77.80.−e, 74.20.Fg (all)
  15. A.A. Abrikosov “The present state of the theory of superconductivitySov. Phys. Usp. 8 710–719 (1966)
    74.20.Fg, 74.70.Ad, 74.25.Op, 74.25.Bt, 74.25.Ha (all)
  16. L.V. Keldysh “Superconductivity in nonmetallic systemsSov. Phys. Usp. 8 496–500 (1965)
    74.20.Fg, 71.18.+y, 74.25.Op (all)
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