PACS numbers

72.20.Dp General theory, scattering mechanisms 74.72.−h Cuprate superconductors 74.90.+n Other topics in superconductivity 75.50.Pp Magnetic semiconductors
  1. S.V. Demishev “Spin-fluctuation transitions67 22–43 (2024)
    05.40.−a, 05.70.Fh, 05.90.+m, 61.05.fg, 71.27.+a, 75.20.Ck, 75.20.En, 75.25.Dk, 75.30.Kz, 75.47.Np, 75.50.Pp, 76.30.−v (all)
  2. Yu.S. Orlov, S.V. Nikolaev et alFeatures of spin crossovers in magnetic materials66 647–672 (2023)
    71.30.+h, 75.30.Cr, 75.30.Et, 75.47.Lx, 75.50.Pp (all)
  3. V.V. Val’kov, M.S. Shustin et alTopological superconductivity and Majorana states in low-dimensional systems65 2–39 (2022)
    71.20.Nr, 71.20.Ps, 71.23.An, 71.70.Ej, 73.23.−b, 74.20.Rp, 74.25.F−, 74.90.+n (all)
  4. S.I. Vedeneev “Pseudogap problem in high-temperature superconductors64 890–922 (2021)
    74.20.Mn, 74.25.−q, 74.25.Jb, 74.72.−h (all)
  5. V.V. Val’kov, D.M. Dzebisashvili et alSpin-polaron concept in the theory of normal and superconducting states of cuprates64 641–670 (2021)
    71.10.−w, 71.10.Fd, 71.27.+a, 74.20.−z, 74.20.Mn, 74.25.N−, 74.72.−h (all)
  6. K.V. Mitsen, O.M. Ivanenko “Superconducting phase diagrams of cuprates and pnictides as a key to understanding the HTSC mechanism60 402–411 (2017)
    74.20.Mn, 74.25.Dw, 74.72.−h, 74.70.−b (all)
  7. V.D. Lakhno “Pekar's ansatz and the strong coupling problem in polaron theory58 295–308 (2015)
    71.38.−k, 74.20.−z, 74.72.−h (all)
  8. L.S. Uspenskaya, A.L. Rakhmanov “Dynamical magnetic structures in superconductors and ferromagnets55 639–656 (2012)
    74.25.Uv, 74.25.Wx, 74.72.−h (all)
  9. Modern problems in the physical sciences (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 16 November 2011)55 607–632 (2012)
    01.10.Fv, 06.60.Jn, 07.07.Hj, 14.60.Pq, 29.40.Gx, 29.50.+v, 74.25.Ha, 74.25.Op, 74.50.+r, 74.72.−h, 74.72.Hs, 85.60.−q (all)
  10. S.I. Vedeneev “High-temperature superconductors in high and ultrahigh magnetic fields55 625–632 (2012)
    74.25.Ha, 74.25.Op, 74.50.+r, 74.72.−h, 74.72.Hs (all)
  11. E.Z. Kuchinskii, I.A. Nekrasov, M.V. Sadovskii “Generalized dynamical mean-field theory in the physics of strongly correlated systems55 325–355 (2012)
    71.10.Fd, 71.10.Hf, 71.20.−b, 71.27.+a, 71.30.+h, 72.15.Rn, 74.72.−h (all)
  12. N.I. Kashirina, V.D. Lakhno “Large-radius bipolaron and the polaron-polaron interaction53 431–453 (2010)
    71.38.−k, 74.20.−z, 74.72.−h (all)
  13. A.S. Mishchenko “Electron — phonon coupling in underdoped high-temperature superconductors52 1193–1212 (2009)
    71.38.−k, 74.20.−z, 74.72.−h (all)
  14. N.B. Ivanova, S.G. Ovchinnikov et alSpecific features of spin, charge, and orbital ordering in cobaltites52 789–810 (2009)
    71.30.+h, 75.30.Cr, 75.50.Pp (all)
  15. V.L. Sedov “Positronium in a cavity in a high-Tc superconductor52 687–694 (2009)
    71.60.+z, 74.25.Jb, 74.72.−h, 78.70.Bj (all)
  16. E.G. Maksimov, A.E. Karakozov “On nonadiabatic effects in phonon spectra of metals51 535–549 (2008)
    71.15.Mb, 74.20.−z, 74.72.−h (all)
  17. E.G. Maksimov, I. Božović et alScientific session of the Physical Sciences Division of the Russian Academy of Sciences “Room temperature superconductivity” (4&nbspOctober 2007)51 167–170 (2008)
    01.10.Fv, 74.20.−z, 74.72.−h (all)
  18. E.G. Maksimov “Room-temperature superconductivity: myth or reality?51 167–170 (2008)
    74.20.−z, 74.72.−h (all)
  19. Yu.V. Kopaev, V.I. Belyavskii, V.V. Kapaev “With cuprate luggage to room-temperature superconductivity51 191–198 (2008)
    74.20.Mn, 74.72.−h (all)
  20. Yu.A. Izyumov, E.Z. Kurmaev “Materials with strong electron correlations51 23–56 (2008)
    71.27.+a, 71.30.+h, 74.72.−h, 75.10.−b, 75.30.−m (all)
  21. E.G. Maksimov, O.V. Dolgov “A note on the possible mechanisms of high-temperature superconductivity50 933–937 (2007)
    71.10.Ay, 71.15.Mb, 74.20.−z, 74.72.−h (all)
  22. V.I. Belyavskii, Yu.V. Kopaev “Superconductivity of repulsive particles49 441–467 (2006)
    74.20.−z, 74.20.Mn, 74.72.−h (all)
  23. M.R. Trunin “Conductivity anisotropy and pseudogap in the microwave response of high-Tc superconductors48 979–998 (2005)
    74.20.De, 74.25.Dw, 74.25.Fy, 74.25.Nf, 74.72.−h (all)
  24. A.S. Mishchenko “Diagrammatic Monte Carlo method as applied to the polaron problems48 887–902 (2005)
    02.70.Uu, 71.35.−y, 71.38.−k, 74.72.−h (all)
  25. V.L. Ginzburg “A few comments on superconductivity research48 173–176 (2005)
    01.10.Fv, 01.65.+g, 67.40.−w, 74.20.−z, 74.72.−h (all)
  26. V.I. Belyavskii, Yu.V. Kopaev “First International Conference ’Fundamental Problems of High-Temperature Superconductivity’48 177–182 (2005)
    74.20.−z, 74.72.−h (all)
  27. E.G. Maksimov “High-temperature superconductivity today47 957–958 (2004)
    74.20.−z, 74.72.−h (all)
  28. K.V. Mitsen, O.M. Ivanenko “Phase diagram of La2-xMxCuO4 as the key to understanding the nature of high-Tc superconductors47 493–510 (2004)
    74.20.−z, 74.62.Dh, 74.72.−h (all)
  29. V.I. Belyavskii, Yu.V. Kopaev “Generalizing considerations about the nature of high-temperature superconductivity (based on the proceedings of M2S-HTSC-VII)47 409–416 (2004)
    74.20.Mn, 74.72.−h (all)
  30. V.F. Khirnyi, A.A. Kozlovskii “Dynamic dissipative mixed states in inhomogeneous type II superconductors47 273–288 (2004)
    73.50.−h, 74.25.Op, 74.72.−h, 74.80.-g (all)
  31. V.F. Khirnyi, A.A. Kozlovskii “Nonlinear effects and domain instability in oxide ceramics46 657–663 (2003)
    72.15.−v, 74.25.−q, 74.72.−h (all)
  32. O.V. Misochko “Electronic Raman scattering in high-temperature superconductors46 373–392 (2003)
    74.25.−q, 74.25.Gz, 74.72.−h (all)
  33. Ya.G. Ponomarev “Tunneling and Andreev spectroscopies of high-temperature superconductors45 649–655 (2002)
    74.50.+p, 74.62.Dh, 74.72.−h (all)
  34. N.A. Chernoplekov “State of the art in applied high-current superconductivity45 659–665 (2002)
    74.72.−h, 84.70.+p, 85.25.Kx (all)
  35. M.V. Sadovskii “Pseudogap in high-temperature superconductors44 515–539 (2001)
    74.20.Mn, 74.72.−h, 74.25.−q, 74.25.Jb (all)
  36. E.G. Maksimov “High-temperature superconductivity: the current state43 965–990 (2000)
    74.20.−z, 74.72.−h, 71.10.Ay, 71.15.Md (all)
  37. V.L. Ginzburg “Superconductivity: the day before yesterday — yesterday — today — tomorrow43 573–583 (2000)
    74.20.−z, 74.25.−q, 74.72.−h, 74.90.+n (all)
  38. A.I. Golovashkin, A.P. Rusakov “Experimental studies of the thermal and electronic properties of Ba1-xKxBiO3 and other perovskite-like oxide HTSC systems43 184–187 (2000)
    74.25.−q, 74.72.−h (all)
  39. Yu.A. Izyumov “Spin-fluctuation mechanism of high-Tc superconductivity and order-parameter symmetry42 215–243 (1999)
    71.27.+a, 74.90.+n, 74.25.Jb (all)
  40. M.R. Trunin “Surface impedance of HTSC single crystals in the microwave band41 843–863 (1998)
    74.20.−z, 74.72.−h, 74.90.+n (all)
  41. L.P. Gor’kov “Lattice and magnetic effects in doped manganites41 589–594 (1998)
    64.60.Ak, 71.70.Gm, 71.70.−d, 75.50.Pp (all)
  42. A.A. Abrikosov “Resonant tunneling in high-Tc superconductors41 605–616 (1998)
    74.25.−q, 74.50.+r, 74.72.−h (all)
  43. D.A. Kirzhnits “An introduction to the physics of the superconducting state40 1267–1267 (1997)
    01.30.Ee, 01.30.Mm, 74.90.+n (all)
  44. Ya.S. Bobovich “Cuprate superconductivity: some spectroscopic, structural, and chemical aspects40 925–949 (1997)
    74.72.−h, 74.90.+n (all)
  45. A.D. Balaev, V.V. Val’kov et alQuantum oscillations of resistance and magnetization in magnetic semiconductors and semimetals40 966–969 (1997)
    75.30.−m, 75.50.Pp (all)
  46. N.V. Anshukova, A.I. Golovashkin et alHTSCs with apical oxygen replaced by halogens40 843–847 (1997)
    74.20.Mn, 74.25.−q, 74.72.−h, 74.90.+n (all)
  47. Yu.A. Izyumov “Strongly correlated electrons: the t-J model40 445–476 (1997)
    71.27.+a, 74.90.+n, 75.10.Lp (all)
  48. V.A. Kashurnikov, A.I. Podlivaev et alSupercurrent states in finite one-dimensional rings39 847–847 (1996)
    71.27.+a, 74.90.+n (all)
  49. J. Delft, D.S. Golubev et alThe parity effect in small superconducting granules39 848–848 (1996)
    74.20.Fg, 74.90.+n (all)
  50. E.L. Nagaev, V.V. Osipov, A.A. Samokhvalov “Cooperative electric phenomena in degenerate magnetic semiconductors with spontaneous phase separation39 637–639 (1996)
    72.20.−i, 75.50.Pp (all)
  51. A.A. Slutskin “’Frozen’ electronic phase and high-temperature superconductivity38 669–672 (1995)
    01.10.Fv, 73.20.Dx, 74.20.Mn, 74.72.−h (all)
  52. E.L. Nagaev “Phase separation in high-temperature superconductors and related magnetic systems38 497–520 (1995)
    74.72.−h, 74.90.+n, 72.20.Dp, 75.50.Pp (all)
  53. V.I. Simonov “Precision x-ray diffraction investigations of single crystals of HTSCs: Report on the 4th International Conference ’Materials and Mechanisms of Superconductivity of High-Temperature Superconductors’ (July 1994, Grenoble, France)38 211–213 (1995)
    01.10.Fv, 74.72.−h, 61.10.−i (all)
  54. E.A. Andryushin, V.L. Ginzburg, A.P. Silin “Erratum: Boundary conditions in the macroscopic theory of superconductivity [Phys. Usp. 36, 854-857 (September 1993)]36 (11) 1086–1086 (1993)
    74.20.−z, 74.72.−h (all)
  55. E.A. Andryushin, V.L. Ginzburg, A.P. Silin “Boundary conditions in the macroscopic theory of superconductivity36 (9) 854–857 (1993)
    74.20.−z, 74.72.−h (all)
  56. Zh.I. Alferov, B.K. Vainshtein et alIsaak Mikhailovich Tsidil’kovskii (on his seventieth birthday)36 (5) 450–451 (1993)
    01.60.+q, 72.20.My, 72.20.Jv, 62.50.+p, 78.20.Ls, 74.72.−h (all)
  57. A.S. Alexandrov, A.B. Krebs “Polarons in high-temperature superconductors35 (5) 345–383 (1992)
    71.38.Mx, 74.20.Fg, 74.72.−h, 74.25.Kc, 74.25.Op (all)
  58. V.L. Pokrovskii “Vortex structures in laminated superconductors34 (7) 626–627 (1991)
    74.25.Qt, 74.25.Bt, 74.72.−h, 74.25.Ha, 74.25.Sv, 74.62.−c (all)
  59. M.A. Teplov “Nuclear magnetic resonance, nuclear quadrupole resonance, and nuclear relaxation in high-temperature superconductors34 (7) 627–629 (1991)
    74.25.Nf, 76.60.Es, 64.75.+g, 74.62.−c, 74.25.Jb, 74.72.−h (all)
  60. Yu.S. Barash “Introduction to the physics of high-temperature superconductors34 (6) 552–553 (1991)
    01.30.Ee, 01.30.Vv, 74.72.−h, 74.25.Ha, 74.50.+r, 74.25.Jb (all)
  61. V.L. Ginzburg “High-temperature superconductivity (history and general review)34 (4) 283–288 (1991)
    74.72.−h, 74.25.Fy, 74.62.−c (all)
  62. V.L. Ginzburg “Thermoelectric effects in the superconducting state34 (2) 101–107 (1991)
    74.25.Fy, 74.72.−h, 74.70.−b (all)
  63. Zh.I. Alferov, A.F. Andreev et alYurii Andreevich Osip’yan (on his sixtieth birthday)34 (2) 202–203 (1991)
    01.60.+q, 01.10.Cr, 81.30.Kf, 61.72.Hh, 72.30.+q, 74.72.−h (all)
  64. L.N. Dem’yanets “High-temperature superconductors: growth of single crystals34 (1) 36–73 (1991)
    74.72.−h, 74.62.Bf, 81.10.−h, 74.25.Dw, 61.66.Fn (all)
  65. P.I. Nikitin, A.I. Savchuk “The Faraday effect in semimagnetic semiconductors33 (11) 974–989 (1990)
    78.20.Ls, 71.70.Gm, 71.35.−y, 75.50.Pp, 78.66.Li, 85.70.Sq (all)
  66. E.G. Maksimov, S.Yu. Savrasov “Photoemission spectroscopy of high-Tc superconductors33 (9) 763–774 (1990)
    74.25.Gz, 79.60.−i, 74.72.−h (all)
  67. V.M. Pudalov, S.G. Semenchinskii “A physical standard of the unit of electrical resistance based on the quantum Hall effect31 880–881 (1988)
    72.20.My, 72.20.Dp (all)
  68. A.I. Golovashkin “High-temperature superconducting ceramics (review of experimental results)30 659–670 (1987)
    74.72.−h, 61.66.Fn, 74.25.Ha, 74.25.Sv, 74.25.Op, 74.25.Fy, 78.70.Nx (all)
  69. V.L. Ginzburg, D.A. Kirzhnits “High-temperature superconductivity (a review of theoretical ideas)30 671–675 (1987)
    74.72.−h, 74.20.Fg, 74.25.Kc (all)
  70. P.B. Wigman “High-temperature superconductivity in metal-oxide ceramics30 729–732 (1987)
    74.72.−h, 74.70.−b (all)
  71. I.I. Lyapilin, I.M. Tsidil’kovskii “Narrow-gap semimagnetic semiconductors28 349–371 (1985)
    71.20.Nr, 75.50.Pp, 75.30.Kz, 75.60.Ej, 78.20.Ls, 72.20.My (all)
  72. A.A. Samokhvalov, V.V. Osipov “Electron-magnon interaction in magnetic semiconductors28 96–97 (1985)
    75.30.Ds, 75.50.Pp, 72.20.Fr, 72.80.−r, 75.60.Ej, 78.20.Ls (all)
  73. V.G. Veselago “Photomagnetism27 465–466 (1984)
    75.30.Gw, 75.60.Ej, 75.50.Pp (all)
  74. I.B. Levinson “Trap trajectories and the cutoff of dissipative effects in semiconductors26 176–181 (1983)
    72.20.Jv, 72.20.My, 72.20.Dp (all)
  75. D.A. Kirzhnits “Superconductivity and elementary particles21 470–486 (1978)
    11.30.Qc, 11.80.Jy, 12.20.Hx, 74.90.+n (all)
  76. E.K. Zavoiskii “Search for high-temperature superconductivity20 356–359 (1977)
    74.90.+n
  77. V.L. Ginzburg “High-temperature superconductivity-dream or reality?19 174–179 (1976)
    74.90.+n
  78. B.I. Shklovskii, A.L. Éfros “Percolation theory and conductivity of strongly inhomogeneous media18 845–862 (1975)
    72.20.Dp
  79. G.N. Flerov, V.S. Barashenkov “Practical applications of heavy ion beams18 783–793 (1975)
    29.17.+w, 29.20.Lq, 21.65.+f, 61.80.Jh, 74.72.−h, 74.25.Sv (all)
  80. M.A. Krivoglaz “Fluctuon states of electrons16 856–877 (1974)
    75.30.Kz, 75.50.Pp, 75.40.Gb, 72.20.Pa, 71.35.−y (all)
  81. B.T. Geilikman “Problems of high-temperature superconductivity in three-dimensional systems16 17–30 (1973)
    71.35.−y, 74.72.−h, 74.40.+k, 74.78.−w, 74.70.−b (all)
  82. A.M. Zlobin, P.S. Zyryanov “Hot electrons in semiconductors subjected to quantizing magnetic fields14 379–393 (1972)
    72.20.Ht, 63.20.Kr, 71.70.Di, 72.20.Dp (all)
  83. V.L. Ginzburg “What problems of physics and astrophysics are of special importance and interest at present?14 21–39 (1971)
    74.72.−h, 71.35.−y, 04.30.−w, 98.80.Jk, 95.30.Sf, 97.60.Jd (all)
  84. K.P. Belov, E.P. Svirina “The Hall effect in ferrites11 620–630 (1969)
    72.20.My, 72.80.Jc, 75.50.Pp, 75.50.Gg (all)
  85. T.B. Charikova, N.G. Shelushina et alEffects of tunneling in highly anisotropic layers of superconductors”, accepted
    74.72.−h
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