Институт теоретической физики им. Л.Д. Ландау


Российской академии наук

Андрей Григорьевич Лебедь

Старший научный сотрудник (ассоциированный)

Доктор физ.-мат. наук

Рабочий телефон: (+1 520) 626-10-31
Эл. почта:
Дом. страница: http://www.physics.arizona.edu/physics/people.php?page=faculty&group=l

Публикации

    1. Chang-woo Cho, Cheuk Yin Ng, Chi Ho Wong, M. Abdel-Hafiez, A.N. Vasiliev, D.A. Chareev, A.G. Lebed, R. Lortz, Competition between orbital effects, Pauli limiting, and Fulde–Ferrell–Larkin–Ovchinnikov states in 2D transition metal dichalcogenide superconductors, New J. Phys. 24, 083001 (2022); arXiv:2201.09428, Scopus: 2-s2.0-85135984424, ADS: 2022NJPh...24h3001C.
    2. A.G. Lebed, A chiral triplet quasi-two-dimensional superconductor in a parallel magnetic field, Письма в ЖЭТФ, 115 (6), 392-393 (2022) [Chiral triplet quasi-two-dimensional superconductor in a parallel magnetic field, JETP Letters, 115(6), 356-361 (2022)]; arXiv:2205.14773, WoS: 000769265500001, Scopus: 2-s2.0-85126290643, ADS: 2022JETPL.115..356L.
    3. A.G. Lebed, Breakdown of the equivalence between gravitational mass and energy due to quantum effects, The Fifteenth Marcel Grossmann Meeting, pp. 167-188 (2022) [Proc. 15th Marcel Grossmann Meeting on General Relativity, University of Rome “La Sapienza”, Italy , 1 – 7 July 2018].
    4. A.G. Lebed, Perpendicular upper critical magnetic field in a layered d-wave superconductor, Письма в ЖЭТФ, 113(11), 731-732 (2021) [JETP Lett., 113(11), 701-705 (2021)], WoS: 000655089200002, Scopus: 2-s2.0-85106529714, ADS: 2021JETPL.113..701L , РИНЦ: 46155602.
    5. A.G. Lebed, Reentrant orbital effect against superconductivity in the quasi-two-dimensional superconductor NbS2, Письма в ЖЭТФ, 114 (8), 551-552 (2021) [JETP Letters, 114(8), 479-485 (2021)]; arXiv:2103.15197, WoS: 000706078600001, Scopus: 2-s2.0-85116932852, ADS: 2021JETPL.114..479L, РИНЦ: 46661362.
    6. A.G. Lebed, Breakdown of the Einstein’s Equivalence Principle for a quantum body, Mod. Phys. Lett. A 35(20), 2030010 (2020); arXiv:2006.14073, WoS: 000545656400001, Scopus: 2-s2.0-85085744943, ADS: 2020MPLA...3530010L, InSpire: 1802922, РИНЦ: 43291821.
    7. A.G. Lebed, Restoration of superconductivity in high magnetic fields in UTe2, Mod. Phys. Lett. B 34(32), 2030007 (2020); arXiv:2008.06796, WoS: 000599925200010, Scopus: 2-s2.0-85096176285, ADS: 2020MPLB...3430007L.
    8. A.G. Lebed, O. Sepper, Four-fold anisotropy of the parallel upper critical magnetic field in a pure layered d-wave superconductor at T = 0, Письма в ЖЭТФ, 111 (4), 249-250 (2020) [JETP Letters, 111(4), 239-244 (2020)]; arXiv:2007.03061, WoS: 000516280100003, Scopus: 2-s2.0-85079709575, ADS: 2020JETPL.111..239L, РИНЦ: 43248872.
    9. A.G. Lebed, Breakdown of the equivalence between gravitational mass and energy due to quantum effects, Int. J. Mod. Phys. D 28(12), 1930020 (2019); arXiv:1910.03694, WoS: 000488831300003, Scopus: 2-s2.0-85070608223.
    10. A.G. Lebed, Unconventional field-induced spin density wave phases in quasi-one-dimensional conductors in high magnetic fields, Phys. Rev. B 99, 041103(R) (2019), WoS: 000454767700001, Scopus: 2-s2.0-85059900485.
    11. A.G. Lebed, Layered superconductor in a magnetic field: breakdown of the effective masses model, Письма в ЖЭТФ, 110 (3), 163-164 (2019) [JETP Lett., 110 (3), 173-177 (2019)]; arXiv:2001.11537, WoS: 000490949200004, Scopus: 2-s2.0-85073645493, ADS: 2019JETPL.tmp..221L.
    12. A.G. Lebed, Inequivalence between gravitational mass and energy of a composite quantum body in general relativity, arXiv:1903.03173, ADS: 2019arXiv190303173L.
    13. A.G. Lebed, Orbital effect for the Fulde-Ferrell-Larkin-Ovchinnikov phase in a quasi-two-dimensional superconductor in a parallel magnetic field, Phys. Rev. B 97, 144504 (2018); arXiv:1805.02745, WoS: 000429114800005, Scopus: 2-s2.0-85045214686, ADS: 2018PhRvB..97n4504L, РИНЦ: 35537051.
    14. A.G. Lebed, Destruction of the spin-density-wave phase by magnetic field in a quasi-one-dimensional conductor, Phys. Rev. B 97, 220503(R) (2018); arXiv:1809.05597, WoS: 000435638300001, Scopus: 2-s2.0-85049031804, ADS: 2018PhRvB..97v0503L, РИНЦ: 35745063.
    15. A.G. Lebed, Response to: Comment on “Does the Equivalence between Gravitational Mass and Energy Survive for a Composite Quantum Body?”, Adv. High Energy Physics, 2017, 1683075 (2017); arXiv:1703.00418, WoS: 000413592500001, Scopus: 2-s2.0-85042087736, ADS: 2017arXiv170300418L, InSpire: 1515499, РИНЦ: 35527283.
    16. A.G. Lebed, Inequivalence between gravitational mass and energy due to quantum effects at microscopic and macroscopic levels, Int. J. Mod. Phys. D 26, 1730022 (2017); arXiv:1711.00116, WoS: 000413445300001, Scopus: 2-s2.0-85020196026, ADS: 2017IJMPD..2630022L, InSpire: 1633751, РИНЦ: 31018924.
    17. A.G. Lebed, Quantum limit in a quasi-one-dimensional conductor in a high tilted magnetic field, Письма в ЖЭТФ, 106 (8), 491-492 (2017) [JETP Lett., 106(8), 509-513 (2017)]; arXiv:1805.02758, WoS: 000418569400005, Scopus: 2-s2.0-85031939569, ADS: 2017JETPL.106..509L, РИНЦ: 30258297.
    18. A.G. Lebed, Possible existence of superconductivity in the quasi-one-dimensional conductor Li0.9Mo6O17 at ultrahigh magnetic fields (H ≥ 45 T), Phys. Rev. B 93, 094523 (2016); arXiv:1604.02185, WoS: 000372798800004, Scopus: 2-s2.0-84961905512, ADS: 2016PhRvB..93i4523L, РИНЦ: 27144890.
    19. A.G. Lebed, Non-Fermi-liquid magic angle effects in high magnetic fields, Phys. Rev. B 94, 035162 (2016), WoS: 000381483800002, Scopus: 2-s2.0-84982698630, ADS: 2016PhRvB..94c5162L, РИНЦ: 2016PhRvB..94c5162L.
    20. A.G. Lebed, Non-Fermi-liquid magic angle effects in high magnetic fields, Phys. Rev. B 94, 035162 (2016), WoS: 000381483800002, Scopus: 2-s2.0-84982698630, ADS: 2016PhRvB..94c5162L, РИНЦ: 27143335.
    21. A.G. Lebed, Breakdown of the equivalence between active gravitational mass and energy for a quantum body, J. Phys.: Conf. Ser. 738, 012036 (2016) [Proc. 5th International Conference on Mathematical Modeling in Physical Sciences (IC-MSquare 2016), 23–26 May 2016, Athens, Greece]; arXiv:1609.06358, WoS: 000403403900036, Scopus: 2-s2.0-84988697467, ADS: 2016JPhCS.738a2036L, InSpire: 1487530, РИНЦ: 27566971.
    22. A.G. Lebed, Breakdown of the equivalence between gravitational mass and energy for a quantum body: Theory and suggested experiments, Int. J. Mod. Phys. D 24(11), 1530027 (2015); arXiv:1608.08656, WoS: 000360981100003, Scopus: 2-s2.0-84938854353, ADS: 2015IJMPD..2430027L, InSpire: 1484666, РИНЦ: 27562375, MathSciNet: 3393916, zbMath: 1336.83019.
    23. A.G. Lebed, Non-Fermi-liquid crossovers in a quasi-one-dimensional conductor in a tilted magnetic field, Phys. Rev. Lett. 115, 157001 (2015); arXiv:1511.01888, WoS: 000362449800005, Scopus: 2-s2.0-84944071543, ADS: 2015PhRvL.115o7001L, РИНЦ: 25266702.
    24. O. Sepper, A.G. Lebed, Quantum limit and reentrant superconducting phases in the Q1D conductor Li0.9Mo6O17, Physica B 460, 231-235 (2015), WoS: 000350808300050, Scopus: 2-s2.0-84923875579, ADS: 2015PhyB..460..231S, РИНЦ: 24010999.
    25. A.G. Lebed, Breakdown of the equivalence between passive gravitational mass and energy for a quantum body, Proc. 13th Marcel Grossman Meeting on General Relativity, Stockholm University, Sweden, 1-7 July 2012, p. 1953-1955 (2014). Edited by K. Rosquist, R.T. Jantzen, R. Ruffini, World Scientific, Singapore, 2014, lxi,2618 pp. (In 3 Volumes). ISBN: 978-981-4623-99-5; arXiv:1208.5756, WoS: -, Scopus: 2-s2.0-85045402125, ADS: 2012PrPh....8d..31L, InSpire: 1182204, РИНЦ: 35509015.
    26. A.G. Lebed, Does the equivalence between gravitational mass and energy survive for a composite quantum body?, Adv. High Energy Phys., 2014, 678087 (2014); arXiv:1404.3765, WoS: 000333270200001, Scopus: 2-s2.0-84897545915, ADS: 2014arXiv1404.3765L, InSpire: 1290517, РИНЦ: 21870456.
    27. A.G. Lebed, O. Sepper, Quantum limit in a magnetic field for triplet superconductivity in a quasi-one-dimensional conductor, Phys. Rev. B 90, 024510 (2014); arXiv:1410.7420, WoS: 000341660100004, Scopus: 2-s2.0-84904337560, ADS: 2014PhRvB..90b4510L, РИНЦ: 24491770.
    28. O. Sepper, A.G. Lebed, Possible restoration of superconductivity in the quasi-one-dimensional conductor Li0.9Mo6O17 in pulsed high magnetic fields H≃100T, Phys. Rev. B 90, 094509 (2014); arXiv:1411.0019, WoS: 000342135200002, Scopus: 2-s2.0-84907246956, ADS: 2014PhRvB..90i4509S, РИНЦ: 24491774.
    29. A.G. Lebed, Breakdown of the equivalence between gravitational mass and energy for a composite quantum body, J. Phys. Conf. Ser., 490, 012154 (2014); arXiv:1404.4044, WoS: 000360981100003, Scopus: 2-s2.0-84896930067, ADS: 2014JPhCS.490a2154L, InSpire: 1291018, РИНЦ: 21869020.
    30. A.G. Lebed, Is gravitational mass of a composite quantum body equivalent to its energy?, Centr. Eur. J. Phys., 11 (8), 969-976 (2013); arXiv:1111.5365, WoS: 000326049400001, Scopus: 2-s2.0-84886289656, ADS: 2013CEJPh..11..969L, InSpire: 954967, РИНЦ: 21884954.
    31. A.G. Lebed, O. Sepper, Possible triplet superconductivity in the quasi-one-dimensional conductor Li0.9Mo6O17, Phys. Rev. B 87, 100511(R) (2013) [5 pages]; arXiv:1211.1961, WoS: 000316792300001, Scopus: 2-s2.0-84875720890, ADS: 2013PhRvB..87j0511L, РИНЦ: 20514103.
    32. O. Sepper, A.G. Lebed, Nodeless versus nodal scenarios of possible triplet superconductivity in the quasi-one-dimensional layered conductor Li0.9Mo6O17, Phys. Rev. B 88, 094520 (2013) [7 pages]; arXiv:1310.0059, WoS: 000325172900006, Scopus: 2-s2.0-84885225564, ADS: 2013PhRvB..88i4520S, РИНЦ: 22040247.
    33. A.G. Lebed, Equivalence between Gravitational Mass and Energy for a Quantum Body at a Macroscopic Level, arXiv:1304.6106, ADS: 2013arXiv1304.6106L.
    34. A.G. Lebed, d-Wave-like nodal superconductivity in the organic conductor (TMTSF)2ClO4, Physica B 407(11), 1803-1805 (2012); arXiv:1208.6553, WoS: 000303415000031, Scopus: 2-s2.0-84859532298, ADS: 2012PhyB..407.1803L, РИНЦ: 17982197.
    35. A.G. Lebed, O. Sepper, Non-analytical angular dependence of the upper critical magnetic field in a quasi-one-dimensional superconductor, Письма в ЖЭТФ, 96 (3), 189-193 (2012) [JETP Lett., 96(3), 176-180 (2012)]; arXiv:1209.4672, WoS: 000309679900006, Scopus: 2-s2.0-84867304705, ADS: 2012JETPL..96..176L, РИНЦ: 18047859.
    36. A. Lebed, Breakdown of the Equivalence between Energy Content and Weight in a Weak Gravitational Field for a Quantum Body, arXiv:1205.3134, ADS: 2012arXiv1204.5219G, InSpire: 1114480.
    37. A.G. Lebed, Hidden Reentrant and Larkin-Ovchinnikov-Fulde-Ferrell Superconducting Phases in a Magnetic Field in a (TMTSF)2ClO4, Phys. Rev. Lett. 107, 087004 (2011) [5 pages]; arXiv:1108.6085, WoS: 000294067500012, Scopus: 2-s2.0-80051945720, ADS: 2011PhRvL.107h7004L, РИНЦ: 18002261.
    38. A.G. Lebed, Hidden reentrant superconducting phase in a magnetic field in (TMTSF)2ClO4, Письма в ЖЭТФ, 94 (5), 414-417 (2011) [JETP Lett., 94(5), 382-385 (2011)], WoS: 000297157000011, Scopus: 2-s2.0-80955141061, ADS: 2011JETPL..94..382L, РИНЦ: 17240458.
    39. A.G. Lebed, Ginzburg-landau slopes of the anisotropic upper critical magnetic field and band parameters in the superconductor (TMTSF)2ClO4, Письма в ЖЭТФ, 94 (9), 748-751 (2011) [JETP Lett., 94(9), 689-692 (2012)]; arXiv:1201.3882, WoS: 000300146100005, Scopus: 2-s2.0-84855566042, ADS: 2012arXiv1201.3882L, РИНЦ: 17239216.
    40. S. Wu, A.G. Lebed, Unification theory of angular magnetoresistance oscillations in quasi-one-dimensional conductors, Phys. Rev. B 82, 075123 (2010) [6 pages]; arXiv:1008.4810, WoS: 000280849600006, Scopus: 2-s2.0-77957552162, ADS: 2010PhRvB..82g5123W, РИНЦ: 16857953.
    41. A.G. Lebed, S. Wu, Larkin-Ovchinnikov-Fulde-Ferrell phase in the superconductor (TMTSF)2ClO4: Theory versus experiment, Phys. Rev. B 82, 172504 (2010) [4 pages]; arXiv:1011.4497, WoS: 000284045600002, Scopus: 2-s2.0-78649666103, ADS: 2010PhRvA..82a2504L, РИНЦ: 16855636.
    42. A.G. Lebed, Universal field-induced spin-density-wave phases: Theory versus experiment, Physica B, 405(11, Suppl.1), S106-S107 (2010); arXiv:0904.2591, WoS: 000283808400029, Scopus: 2-s2.0-84855537664, ADS: 2010PhyB..405S.106L, РИНЦ: 23959657.
    43. Si Wu, A.G. Lebed, Soliton wall superlattice charge-density-wave phase in the quasi-one-dimensional conductor (Per)2Pt(mnt)2, Phys. Rev. B 80, 035128 (2009) [7 pages]; arXiv:0903.4018, WoS: 000268617800062, Scopus: 2-s2.0-69549110203, ADS: 2009PhRvB..80c5128W, РИНЦ: 15405886.
    44. A.G. Lebed, Universal Field-Induced Charge-Density-Wave Phase Diagram: Theory versus Experiment, Phys. Rev. Lett., 103, 046401 (2009) [4 pages]; arXiv:0904.2591, WoS: 000268307400044, Scopus: 2-s2.0-68649084493, ADS: 2009PhRvL.103d6401L, РИНЦ: 15405885.
    45. A.G. Lebed, S. Wu, Super-crystalline phase in quasi-one-dimensional conductors, Physica B 404(3-4), 347-349 (2009), WoS: 000264227400003, Scopus: 2-s2.0-59649085051, ADS: 2009PhyB..404..347L, РИНЦ: 13605206.
    46. A.G. Lebed, Paramagnetic intrinsic Meissner effect in layered superconductors, Phys. Rev. B 78, 012506 (2008); arXiv:0802.3710, WoS: 000258190000031, Scopus: 2-s2.0-48549086359, ADS: 2008PhRvB..78a2506L, РИНЦ: 13579378.
    47. O. Dutta, A.G. Lebed, Cooper pairs with broken time-reversal, parity, and spin-rotational symmetries in singlet type-II superconductors, Phys. Rev. B 78, 224504 (2008); arXiv:0805.1749, WoS: 000262245200072, Scopus: 2-s2.0-57649090023, ADS: 2008PhRvB..78v4504D, РИНЦ: 13595575.
    48. A.G. Lebed, Paramagnetic Intrinsic Meissner Effect in a Bulk, Письма в ЖЭТФ, 88 (3), 234-237 (2008) [JETP Lett., 88(3), 201-204 (2008)], WoS: 000260219600012, Scopus: 2-s2.0-54349087579, ADS: 2008JETPL..88..201L, РИНЦ: 3567196.
    49. A.G. Lebed (ed.), The Physics of Organic Superconductors and Conductors, Springer Series in Materials Science, Vol. 110, 2008, xvi,772 p. 343 ill., ISBN: 978-3-540-76667-4.
    50. A. Lebed, Field-Induced Spin–Density Waves and Dimensional Crossovers, Springer Series in Materials Science, Vol. 110, 25-40 (2008) [The Physics of Organic Superconductors and Conductor, Ed. A.G. Lebed. ISBN 978-3-540-76667-4], WoS: 000266794800003, Scopus: 2-s2.0-85010282031, ADS: 2008posc.book...25L, РИНЦ: 41928380.
    51. A. Lebed, S. Wu, Magnetic Properties of Organic Conductors and Superconductors as Dimensional Crossovers, Springer Series in Materials Science, Vol. 110, 127-184 (2008) [The Physics of Organic Superconductors and Conductor, Ed. A.G. Lebed. ISBN 978-3-540-76667-4], WoS: 000266794800007, Scopus: 2-s2.0-85072834021, ADS: 2008posc.book..127L, РИНЦ: 42187237.
    52. A. Lebed, S. Wu, Triplet Scenario of Superconductivity vs. Singlet One in (TMTSF)2X Materials, Springer Series in Materials Science, Vol. 110, 643-660 (2008) [The Physics of Organic Superconductors and Conductor, Ed. A.G. Lebed. ISBN 978-3-540-76667-4], WoS: 000266794800023, Scopus: 2-s2.0-85031072251, ADS: 2008posc.book..643L, РИНЦ: 41667583.
    53. A.G. Lebed, S. Wu, Soliton wall superlattice in the quasi-one-dimensional conductor (Per)2Pt(mnt)2, Phys. Rev. Lett. 99, 026402 (2007); cond-mat/0702500, WoS: 000248021000040, Scopus: 2-s2.0-34547221965, ADS: 2007PhRvL..99b6402L, РИНЦ: 13560546.
    54. A.G. Lebed, S. Wu, Soliton wall superlattice charge-density-wave phase in a magnetic field, Письма в ЖЭТФ, 86 (2), 144-147 (2007) [JETP Letters, 86(2), 135-138 (2007)], WoS: 000249818000014, Scopus: 2-s2.0-34848859224, ADS: 2007JETPL..86..135L, РИНЦ: 13542045.
    55. A.G. Lebed, Type-IV Superconductivity: Can Superconductivity be more Exotic than Unconventional, J. Low Temp. Phys., 142(3-4), 173-178 (2006), WoS: 000240657500012, Scopus: 2-s2.0-34447639574, ADS: 2006JLTP..142..173L, РИНЦ: 13533693.
    56. H. Yoshino, Z. Bayindir, J. Roy, B. Shaw, H.-i. Ha, A. Lebed, M.J. Naughton, Unconventional Field Dependence of Magnetoresistance of (TMTSF)2ClO4 Studied by 46-T Pulsed Magnetic Field System, J. Low Temp. Phys., 142(3-4), 323-326 (2006), WoS: 000243396400701, Scopus: 2-s2.0-34447644385, ADS: 2006JLTP..142..323Y, РИНЦ: 14525808 .
    57. A.G. Lebed, N.N. Bagmet, Quantum (nano-scale) limit in a parallel magnetic field in layered Q1D conductors, J. Low Temp. Phys., 142(3-4), 495-498 (2006) [J. Low Temp. Phys., 142(3-4), 499-502 (2006)], WoS: 000240657500076, Scopus: 2-s2.0-34447625030, ADS: 2006JLTP..142..495L, РИНЦ: 38737775.
    58. H.I. Ha, A.G. Lebed, M.J. Naughton, Interference effects due to commensurate electron trajectories and topological crossovers in (TMTSF)2ClO4, Phys. Rev. B 73, 033107 (2006) [4 pages]; cond-mat/0503649, WoS: 000235009500007, Scopus: 2-s2.0-33144488419, ADS: 2006PhRvB..73c3107H, РИНЦ: 13512992.
    59. A.G. Lebed, Cooper Pairs with Broken Parity and Spin-Rotational Symmetries in d-Wave Superconductors, Phys. Rev. Lett. 96, 037002 (2006); cond-mat/0507692, WoS: 000234969300090, Scopus: 2-s2.0-32644482159, ADS: 2006PhRvL..96c7002L, РИНЦ: 14613215.
    60. H. Yoshino, Z. Bayindir, J. Roy, B. Shaw, H.-i. Ha, A.G. Lebed, M.J. Naughton, Pulsed Field Studies of Angular Dependence of Unconventional Magnetoresistance in (TMTSF)2ClO4 , AIP Conf. Proc., 850,1542-1543 (2006). Ed. by Y. Takano, S.P. Hershfield, S.O. Hill, P.J. Hirschfeld, A.M. Goldman. ISBN: 0-7354-0347-3, Scopus: 2-s2.0-33947494045, ADS: 2006AIPC..850.1542Y.
    61. H. Yoshino, Z. Bayindir, J. Roy, B. Show, H.-I. Ha, A.G. Lebed, M.J. Naughton, K. Kikuchi, H. Nishikawa, K. Murata, Pulsed magnetic field study of unconventional magnetoresistance of Q1D superconductors (TMTSF)2ClO4 and (DMET)2I3, J. Phys.: Conf. Ser., 51, 339-342 (2006), WoS: 000246201000079, Scopus: 2-s2.0-33947643571, ADS: 2006JPhCS..51..339Y, РИНЦ: 14785022.
    62. A.G. Lebed, H.-I. Ha, M.J. Naughton, Angular magnetoresistance oscillations in organic conductors, Phys. Rev. B 71, 132504 (2005) (4 pages); cond-mat/0411206, WoS: 000228761800014, Scopus: 2-s2.0-28644442327, ADS: 2005PhRvB..71m2504L, РИНЦ: 13488114.
    63. A.G. Lebed, Quantum Limit in a Parallel Magnetic Field in Layered Conductors, Phys. Rev. Lett. 95, 247003 (2005); cond-mat/0411496, WoS: 000233826100057, Scopus: 2-s2.0-28844486635, ADS: 2005PhRvL..95x7003L, РИНЦ: 14635527.
    64. A.G. Lebed, Type-IV superconductivity: Cooper pairs with broken inversion and time-reversal symmetries in conventional superconductors, Письма в ЖЭТФ, 82 (4), 223-227 (2005) [JETP Lett., 82(4), 204-209 (2005)]; cond-mat/0507691, WoS: 000232724000009, Scopus: 2-s2.0-27344444152, ADS: 2005JETPL..82..204L, РИНЦ: 13486444.
    65. A.G. Lebed, N.N. Bagmet, M.J. Naughton, Magic angles, AMRO and interference effects in layered conductors, J. Phys. IV France, 114, 77-80 (2004), WoS: 000221218200015, Scopus: 2-s2.0-33645147096, ADS: 2004JPhy4.114...77L, РИНЦ: 16946021.
    66. A.G. Lebed, N.N. Bagmet, M.J. Naughton, Magic angle effects and angular magnetoresistance oscillations as dimensional crossovers, Phys. Rev. Lett. 93, 157006 (2004); cond-mat/0404042, WoS: 000224341600077, Scopus: 2-s2.0-19644400684, ADS: 2004PhRvL..93o7006L, РИНЦ: 13460880.
    67. A. Lebed, N. Bagmet, M. Naughton, Quantum (Nano-scale) Limit in Organic Conductors and Superconductors in a Parallel Magnetic Field, APS March Meeting 2004, March 22-26, 2004, Palais des Congres de Montreal, Montreal, Quebec, Canada, MEETING ID: MAR04, abstract id. H3b.003 (2004), ADS: 2004APS..MARH3b003L.
    68. N. Bagmet, A. Lebed, Quantum (Nano-scale) Limit for High-Tc Superconductors in a Parallel Magnetic Field, APS March Meeting 2004, March 22-26, 2004, Palais des Congres de Montreal, Montreal, Quebec, Canada, MEETING ID: MAR04, abstract id. V13.004 (2004), ADS: 2004APS..MARV13004B.
    69. A.G. Lebed, M.J. Naughton, Interference commensurate oscillations in quasi-one-dimensional conductors, Phys. Rev. Lett. 91, 187003 (2003); cond-mat/0304591, WoS: 000186274800040, Scopus: 2-s2.0-8644275281, ADS: 2003PhRvL..91r7003L, РИНЦ: 13433093.
    70. A.G. Lebed, Theory of magnetic field-induced charge-density-wave phases, Письма в ЖЭТФ, 78 (3), 170-174 (2003) [JETP Lett., 78 (3), 138-142 (2003)], WoS: 000185576300009, Scopus: 2-s2.0-0347228251, ADS: 2003JETPL..78..138L, РИНЦ: 13430915.
    71. A.G. Lebed, Magnetic tests to reveal triplet supeconductivity in (TMTSF)2PF6 and a possible breaking of a time reversal symmetry in Sr2RuO4, LBCO, and YBCO, Int. J. Mod. Phys. B 16(20-22), 3198 (2002), WoS: 000178300100075, Scopus: 2-s2.0-0037200609, ADS: 2002IJMPB..16.3198L, РИНЦ: 14174330.
    72. A.G. Lebed, Triplet superconductivity order parameter in an organic superconductor (TMTSF)2PF6, Int. J. Mod. Phys. B 16(20-22), 3271 (2002), WoS: 000178300100095, Scopus: 2-s2.0-0037200563, ADS: 2002IJMPB..16.3271L, РИНЦ: 13409738.
    73. A.G. Lebed, M.J. Naughton, Fermi surface interference effects and angular magnetic oscillations in Q1D conductors, J. Phys. IV France, 12(PR9), 369-372 (2002), WoS: 000180633200100, Scopus: 2-s2.0-0036873764, РИНЦ: 15034870.
    74. A.G. Lebed, Field-induced spin-density-wave phases in quasi-one-dimensional conductors: Theory versus experiments, Phys. Rev. Lett. 88, 177001 (2002); cond-mat/0304406, WoS: 000175054700045, Scopus: 2-s2.0-4143154195, ADS: 2002PhRvL..88q7001L, РИНЦ: -.
    75. A.G. Lebed, Magnetic tests to reveal triplet supeconductivity in (TMTSF)2PF6 and a possible breaking of a time reversal symmetry in Sr2RuO2, LBCO, and YBCO, Proc. of Physical Phenomena at High Magnetic Fields IV. Santa Fe, NM, USA, 19 Oct. 2001. World Scientific, 2002, p. 302, xxi+518 pp, ADS: 2002pphm.conf..302L.
    76. A.G. Lebed, Triplet superconductivity order parameter in an organic superconductor (TMTSF)2PF6, Proc. of Physical Phenomena at High Magnetic Fields IV. Santa Fe, NM, USA, 19 Oct. 2001. World Scientific, 2002, pp. 377, xxi+518 pp., ADS: 2002pphm.conf..377L.
    77. A.G. Lebed, K. Machida, M. Ozaki, Triplet electron pairing and anisotropic spin susceptibility in organic superconductors (TMTSF)2X, Phys. Rev. B 62 (2), R795-R798 (2000); cond-mat/0005039, WoS: 000088190500017, Scopus: 2-s2.0-16644391586, ADS: 2000PhRvB..62..795L, РИНЦ: 13339291.
    78. A.G. Lebed, N. Hayashi, Paramagnetic-like destructive mechanism against superconductivity in Sr2RuO4: a triplet scenario versus a singlet one, Physica C 341-348 (Pt.3), 1677-1678 (2000), WoS: 000165855900099, Scopus: 2-s2.0-0343397248, ADS: 2000PhyC..341.1677L, РИНЦ: 22225376.
    79. A.G. Lebed, Possible triplet order parameter in a Q1D organic superconductor (TMTSF)2PF6, Physica C 341-348 (Pt.3), 1699-1700 (2000), WoS: 000165855900110, Scopus: 2-s2.0-0342961829, ADS: 2000PhyC..341.1699L, РИНЦ: 22208965.
    80. A.G. Lebed, Does the "quantized nesting model" properly describe the magnetic-field-induced spin-density-wave transitions?, Письма в ЖЭТФ, 72 (3), 205-209 (2000) [JETP Lett., 72 (3), 141-143 (2000)], WoS: 000089286900012, Scopus: 2-s2.0-0000960733, ADS: 2000JETPL..72..141L, РИНЦ: 13357488, MathSciNet: -, zbMath: -.
    81. A.G. Lebed, Gap symmetry and a revival of superconductivity in high parallel magnetic fields in Q2D and Q1D organic, high-Tc, and Sr2RuO4 compounds, J. Superconductivity, 12 (3), 453-458 (1999), WoS: 000081414000002, Scopus: 2-s2.0-0032627435, ADS: 1999JSup...12..453L, РИНЦ: 318413.
    82. A.G. Lebed, Revival of superconductivity in high magnetic fields and a possible p-wave pairing in (TMTSF)2PF6, Phys. Rev. B 59 (2), R721-R724 (1999), WoS: 000078111600011, Scopus: 2-s2.0-0001431662, ADS: 1999PhRvB..59..721L, РИНЦ: 35744802.
    83. A.G. Lebed, K. Yamaji, Restoration of superconductivity in high parallel magnetic fields in layered superconductors, Phys. Rev. Lett. 80(12), 2697-2700 (1998), WoS: 000072659200050, Scopus: 2-s2.0-0032028717, ADS: 1998PhRvL..80.2697L, РИНЦ: 13296825.
    84. A.G. Lebed, Ground state of (TMTSF)2ClO4 in high magnetic fields: The creation of Su-Schrieffer-Heeger solitons, Phys. Rev. B 55 (3), 1299-1302 (1997), WoS: A1997WF30300005, Scopus: 2-s2.0-0042823918, ADS: 1997PhRvB..55.1299L, РИНЦ: 13254774.
    85. A.G. Lebed, N.N. Bagmet, Nonanalytical magnetoresistance, the third angular effect, and a method to investigate Fermi surfaces in quasi-two-dimensional conductors, Phys. Rev. B 55(14), R8654-R8657 (1997), WoS: A1997WW80200010, Scopus: 2-s2.0-0001629053, ADS: 10.1103/PhysRevB.55.R8654, РИНЦ: 13260465.
    86. A.G. Lebed, K. Yamaji, Restoration of superconductivity at high magnetic fields in layered high-Tc and organic superconductors, Physica C 282-287 (Pt.4), 1859-1860 (1997), WoS: A1997XZ90600369, Scopus: 2-s2.0-17144454882, ADS: 1997PhyC..282.1859L, РИНЦ: 13263205.
    87. A.G. Lebed, N.N. Bagmet, Non-analytical magnetoresistance and a new method of investigation of Fermi surfaces in Q2D and Q1D conductors, Synth. Met., 85 (1-3), 1493-1494 (1997), WoS: A1997WX70800195, Scopus: 2-s2.0-0031072802, ADS: -, РИНЦ: 13252352.
    88. A.G. Lebed, New aspects of non-Fermi-liquid behaviour in Q1D metals, Synth. Met., 85 (1-3), 1615-1616 (1997), WoS: A1997WX70800247, Scopus: 2-s2.0-0031072106, ADS: -, РИНЦ: 13271389.
    89. T. Sasaki, A.G. Lebed, T. Fukase, N. Toyota, Magnetic field response of the spin density wave in α-(BEDT-TTF)2KHg(SCN)4, Synth. Met., 86 (1-3), 2063-2064 (1997), WoS: A1997WZ98800130, Scopus: 2-s2.0-0039573793, ADS: -, InSpire: 13254708.
    90. A.G. Lebed, Magnetic oscillations in a normal state of organic conductors: Many-body approach, J. Phys. I France, 6(12), 1819-1836 (1996), WoS: A1996VZ31500025, Scopus: 2-s2.0-0030410886, ADS: 1996JPhy1...6.1819L, РИНЦ: 15000277.
    91. T. Sasaki, A.G. Lebed, T. Fukase, N. Toyota, Interplay of the spin-density-wave state and magnetic field in the organic conductor α-(BEDT-TTF)2KHg(SCN)4, Phys. Rev. B 54(18), 12969-12978 (1996), WoS: A1996VT68200054, Scopus: 2-s2.0-0000590826, ADS: 1996PhRvB..5412969S, РИНЦ: 13241563.
    92. A.G. Lebed, Su-Schrieffer-Heeger solitons as a ground state of organic superconductors in a magnetic field, Proc. of Physical Phenomena at High Magnetic Fields II. Tallahassee, FL, USA, 6 May 1995. Ed. by Z. Fisk, L. Gor'kov, D. Meltzer, R. Schrieffer, World Scientific, 1996, pp. 346-349, xviii+787 pp.
    93. L.P. Gor’kov, A.G. Lebed, Fast oscillations in the surface impedance of (TMTSF)2ClO4 in a magnetic field, Phys. Rev. B 51 (2), 1362-1365 (1995), WoS: A1995QD15000088, Scopus: 2-s2.0-0012634236, ADS: 1995PhRvB..51.1362G, РИНЦ: 30849545.
    94. L.P. Gor’kov, A.G. Lebed, Metal-phase stability of (TMTSF)2ClO4 in high magnetic fields, where TMTSF is tetramethyltetraselenafulvalene, Phys. Rev. B 51 (5), 3285-3288 (1995), WoS: A1995QG31200097, Scopus: 2-s2.0-0000916644, ADS: 1995PhRvB..51.3285G, РИНЦ: 30855872.
    95. A.G. Lebed, New type of quantum magnetic resistance oscillations in quasi-one-dimensional conductors, Phys. Rev. Lett. 74(24), 4903-4906 (1995), WoS: A1995RC19100036, Scopus: 2-s2.0-0007886863, ADS: 1995PhRvL..74.4903L, РИНЦ: 30836176.
    96. L.P. Gor’kov, A.G. Lebed, Anion gap and stability of the metallic phase for (TMTSF)2ClO4, Synth. Met., 70 (1-3), 727-730 (1995), WoS: A1995QQ70100002, Scopus: 2-s2.0-58149325582, РИНЦ: 30914236.
    97. A.G. Lebed, Magic angles effects and rapid magnetic oscillations in organic superconductors, Synth. Met., 70 (1-3), 993-996 (1995), WoS: A1995QQ70100104, Scopus: 2-s2.0-0029274826, ADS: -, РИНЦ: 41798933.
    98. A.G. Lebed, Commensurability resonance in quasi-one-dimensional conductors, J. Phys. I France, 4 (3), 351-355 (1994), WoS: A1994MZ49900002, Scopus: -, ADS: 1994JPhy1...4..351L.
    99. L.P. Gor’kov, A.G. Lebed’, Cyclotron resonance on open orbits in organic materials, Phys. Rev. Lett. 71(23), 3874-3877 (1993), WoS: A1993MK96400035, Scopus: 2-s2.0-0001561133, ADS: 1993PhRvL..71.3874G, РИНЦ: 30811116.
    100. A.G. Lebed, New type of magnetic resonance and giant quasi-one-dimensional fluctuations in organic superconductors, Synth. Met., 57 (2-3), 4691-4696 (1993), WoS: A1993LP13800078, Scopus: 2-s2.0-0027574745.
    101. A.G. Lebed, New type of resonance and giant fluctuations in organic superconductors, J. Phys. I France, 2(11), 2005-2009 (1992), WoS: A1992KE49500001.
    102. A.G. Lebed, New phases and quantum Hall effect in organic superconductors, Physica B 169 (1-4), 368-371 (1991), WoS: A1991FL63000056, Scopus: 2-s2.0-0026104037, РИНЦ: 41765775.
    103. A.G. Lebed, Spin Density Waves and Fast Oscillations in Organic Superconductors, Physica Scripta, T39, 386-388 (1991), WoS: A1991GV57300063, Scopus: 2-s2.0-0043017677.
    104. A.G. Lebed, New phase transitions in the organic superconductor (TMTSF)2ClO4, Synth. Met., 42 (1-2), 1938-1938 (1991), WoS: A1991FV27600118, Scopus: 2-s2.0-0026152073.
    105. А.Г. Лебедь, Волны спиновой плотности и квантовый эффект Холла в органических сверхпроводниках, ЖЭТФ, 99 (6), 1849-1852 (1991) [A.G. Lebed’, Spin density waves and the quantum Hall effect in organic superconductors, Sov. Phys. JETP 72(6), 1035-1036 (1991)], WoS: A1991FZ08000019.
    106. А.Г. Лебедь, Новые фазы в органических сверхпроводниках, Письма в ЖЭТФ, 51(11), 583-585 (1990) [A.G. Lebed’, New phases in organic superconductors, JETP Lett., 51(11), 663-666 (1990)], WoS: A1990EA28900014.
    107. A.G. Lebed, P. Bak, Theory of reentrance of spin-density-wave transitions in bis-tetramethyltetraselenafulvalenium perchlorate [(TMTSF)2ClO4], Phys. Rev. B 40(16), 11433-11436 (1989), WoS: A1989CD18200113, Scopus: 2-s2.0-0010250880, РИНЦ: 30811534.
    108. A.G. Lebed, P. Bak, Theory of unusual anisotropy of magnetoresistance in organic superconductors, Phys. Rev. Lett. 63(12), 1315-1317 (1989), WoS: A1989AQ05200032, Scopus: 2-s2.0-4243066464, РИНЦ: 31004675.
    109. A.G. Lebed, Josephson junctions in single-crystal YBa2Cu3O7, Int. J. Mod. Phys. B 2 (5), 1113-1120 (1988).
    110. Л.И. Глазман, А.Е. Кошелев, А.Г. Лебедь, Резистивный переход и критические поля сверхпроводящих керамик, ЖЭТФ, 94 (6), 259-269 (1988) [L.I. Glazman, A.E. Koshelev, A.G. Lebed’, Resistive transition and critical fields of superconducting ceramics, Sov. Phys. JETP 67(6), 1235-1241 (1988)], WoS: A1988P114200026.
    111. L.I. Burlachkov, L.P. Gor’kov, A.G. Lebed’, Identification of the superconductivity type in organic superconductors, Europhys. Lett., 4 (8), 941-946 (1987); Erratum — ibid, 5(7), 669 (1988), WoS: A1987K384500014, Scopus: 2-s2.0-84956077419.
    112. L.I. Burlachkov, L.P. Gor’kov, A.G. Lebed’, On the superconductivity type in the Bechgaard salts, Physica B+C 148 (1-3), 500-502 (1987), WoS: A1987L952100135, Scopus: 2-s2.0-0023589828.
    113. L.I. Glazman, A.E. Koshelev, A.G. Lebed’, Crystal anisotropy and superconductivity of ceramics (in Russian), Письма в ЖЭТФ, 46, Suppl.1, 148-151 (1987) [L.I. Glazman, A.E. Koshelev, A.G. Lebed’, Crystalline anisotropy and superconductivity of ceramics, JETP Lett., 46(S1), S123-S125 (1987)].
    114. А.Г. Лебедь, Анизотропия неустойчивости для волны спиновой плотности, индуцированной магнитным полем в Q1D проводниках, Письма в ЖЭТФ, 43 (3), 137-139 (1986) [A.G. Lebed’, Anisotropy of an instability for a spin density wave induced by a magnetic field in a Q1D conductor, JETP Lett., 43 (3), 174-177 (1986)], WoS: A1986C796300009.
    115. А.Г. Лебедь, Обратимый характер орбитального механизма подавления сверхпроводимости, Письма в ЖЭТФ, 44 (2), 89-92 (1986) [A.G. Lebed’, Reversible nature of the orbital mechanism for the suppression of superconductivity, JETP Lett., 44 (2), 114-117 (1986)], WoS: A1986F079100012.
    116. L.P. Gor’kov, A.G. Lebed, Instability of Metal Phase of the Q1D-Conductor in Magnetic Field, Mol. Cryst. Liq. Cryst., 119 (1-4), 73-77 (1985), WoS: A1985AJF0500013.
    117. А.Г. Лебедь, Фазовая диаграмма слоистых квазиодномерных проводников в магнитном поле, ЖЭТФ, 89 (3), 1034-1049 (1985) [A.G. Lebed’, Phase diagram of layered quasi-one-dimensional conductors in a magnetic field, Sov. Phys. JETP 62(3), 595-604 (1985)], WoS: A1985ASL8100029.
    118. L.P. Gor’kov, A.G. Lebed’, On the stability of the quasi-onedimensional metallic phase in magnetic fields against the spin density wave formation, J. Physique Lett., 45 (9), L433-L440 (1984), WoS: A1984ST58500006, Scopus: 2-s2.0-0021422229, РИНЦ: -.
    119. А.Г. Лебедь, Доменная структура в электрическом поле в соизмеримых квазиодномерных проводниках, ЖЭТФ, 86 (4), 1553-1567 (1984) [A.G. Lebed’, Domain structure in an electric field in commensurate quasi-one-dimensional conductors, Sov. Phys. JETP, 59(4), 909-916 (1984)], WoS: A1984SQ02400035.
    120. L.P. Gorkov, A.G. Lebed, Domain-walls and their properties in quasi-one-dimensional crystals, J. Phys. France, 44 (NC-3), 1531-1537 (1983), WoS: A1983RQ31300144.
    121. Л.П. Горьков, Е.Н. Долгов, А.Г. Лебедь, Увлечение фононов и особенности проводимости в одномерных металлах, ЖЭТФ, 82 (2), 613-630 (1982) [L.P. Gor’kov, E.N. Dolgov, A.G. Lebed, Phonon drag and the characteristics of the conductivity in one-dimensional metals, Sov. Phys. JETP, 55(2), 365-375 (1982)], WoS: A1982NC74100031.
    122. С.А. Бразовский, Л.П. Горьков, А.Г. Лебедь, Несоизмеримые сверхструктуры в органических проводниках с трехмерным электронным спектром, ЖЭТФ, 83 (3), 1198-1211 (1982) [S.A. Brazovskii, L.P. Gor’kov, A.G. Lebed’, Incommensurate superstructures in organic conductors with three-dimensional electronic spectra, Sov. Phys. JETP, 56(3), 683-690 (1982)], WoS: A1982PK95600036.