Russian Academy of Sciences

Landau Institute for Theoretical Physics

Grigorii M. Tarnopol’skii

Former member

Email:

Publications

    1. W. Fu, Y. Gu, S. Sachdev, G. Tarnopolsky, Z2 fractionalized phases of a solvable disordered t−J model, Phys. Rev. B 98, 075150 (2018); arXiv:1804.04130, WoS: 000442874400001, Scopus: 2-s2.0-85052821302, ADS: 2018PhRvB..98g5150F, InSpire: 1667414.
    2. K. Bulycheva, I.R. Klebanov, A. Milekhin, G. Tarnopolsky, Spectra of operators in large N tensor models, Phys. Rev. D 97, 026016 (2018); arXiv:1707.09347, WoS: 000423434600022, Scopus: 2-s2.0-85042177145, ADS: 2018PhRvD..97b6016B, InSpire: 1613546.
    3. I.R. Klebanov, A. Milekhin, F. Popov, G. Tarnopolsky, Spectra of eigenstates in fermionic tensor quantum mechanics, Phys. Rev. D 97, 106023 (2018); arXiv:1802.10263, WoS: 000433913000014, Scopus: 2-s2.0-85048081784, ADS: 2018PhRvD..97j6023K, InSpire: 1657948, MathSciNet: 3886101, zbMath: -.
    4. G.L. Pimentel, A.M. Polyakov, G.M. Tarnopolsky, Vacua on the brink of decay, Rev. Math. Phys., 30(7), 1840013 (2018); arXiv:1803.09168, WoS: 000439964100007, Scopus: 2-s2.0-85049937206, ADS: 2018RvMaP..3040013P, InSpire: 1664344, RINTs: 36190430, MathSciNet: 3833054, zbMath: 1405.81059.
    5. I.R. Klebanov, G. Tarnopolsky, On large N limit of symmetric traceless tensor models, J. High Energy Phys., 1710, 037 (2017); arXiv:1706.00839, WoS: 000412406200003, Scopus: 2-s2.0-85031279295, ADS: 2017JHEP...10..037K, InSpire: 1602655, RINTs: 32074834, MathSciNet: 3731176, zbMath: 1383.81239.
    6. Igor R. Klebanov, Grigory Tarnopolsky, Uncolored random tensors, melon diagrams, and the Sachdev-Ye-Kitaev models, Phys. Rev. D 95, 046004 (2017); arXiv:1611.08915, WoS: 000393744900005, Scopus: 2-s2.0-85019862378, ADS: 2017PhRvD..95d6004K, InSpire: 1500567, RINTs: -, MathSciNet: 3783911, zbMath: -.
    7. G. Tarnopolsky, Large N expansion of the sphere free energy, Phys. Rev. D 96, 025017 (2017); arXiv:1609.09113, WoS: 000406039700008, Scopus: 2-s2.0-85027049843, ADS: 2017PhRvD..96b5017T, InSpire: 1488606, MathSciNet: 3843116, zbMath: -.
    8. S. Giombi, I.R. Klebanov, G. Tarnopolsky, Bosonic tensor models at large N and small ε, Phys. Rev. D 96, 106014 (2017); arXiv:1707.03866, WoS: 00415905100012, Scopus: 2-s2.0-85037153995, ADS: 2017PhRvD..96j6014G, InSpire: 1609779.
    9. S. Giombi, G. Tarnopolsky, I.R. Klebanov, On CJ and CT in conformal QED, J. High Energy Phys. 1608, 156 (2016); arXiv:1602.01076, WoS: 000382398000003, Scopus: 2-s2.0-84984633368, ADS: 2016JHEP...08..156G, InSpire: 1419101.
    10. S. Giombi, I.R. Klebanov, G. Tarnopolsky, Conformal QEDd, F-Theorem and the ε expansion, J. Phys. A 49, 135403 (2016); arXiv:1508.06354, WoS: 000371250700011, Scopus: 2-s2.0-84960373047, ADS: 2016JPhA...49m5403G, InSpire: 1389863, MathSciNet: 3465315, zbMath: 1348.81454.
    11. K. Diab, L. Fei, S. Giombi, I.R. Klebanov, G. Tarnopolsky, On CJ and CT in the Gross-Neveu and O(N) models, J. Phys. A 49, 405402 (2016); arXiv:1601.07198, WoS: 000384565700012, Scopus: 2-s2.0-84988928082, ADS: 2016JPhA...49N5402D, InSpire: 1417125, MathSciNet: 3556182, zbMath: 1349.81167.
    12. G.L. Pimentel, A.M. Polyakov, G.M. Tarnopolsky, Vacuum decay in CFT and the Riemann-Hilbert problem, Nucl. Phys. B 907, 617-632 (2016); arXiv:1512.06721, WoS: 000376818000024, Scopus: 2-s2.0-84964402826, ADS: 2016NuPhB.907..617P, InSpire: 1410816, RINTs: 31908243, MathSciNet: 3498446, zbMath: 1336.81079.
    13. L. Fei, S. Giombi, I.R. Klebanov, G. Tarnopolsky, Yukawa conformal field theories and emergent supersymmetry, Progr. Theor. Exp. Phys., 2016(12), 12C105 (2016); arXiv:1607.05316, WoS: 000393905400003, Scopus: 2-s2.0-84997523843, ADS: 2016arXiv160705316F, InSpire: 1477033, MathSciNet: 3628686, zbMath: 1361.81135.
    14. L. Fei, S. Giombi, I.R. Klebanov, G. Tarnopolsky, Critical Sp(N) Models in 6-ε Dimensions and Higher Spin dS/CFT, J. High Energy Phys. 1509, 076 (2015); arXiv:1502.07271, WoS: 000361731300001, Scopus: 2-s2.0-84942119965, ADS: 2015arXiv150207271F, InSpire: 1346420, RINTs: 25250873.
    15. L. Fei, S. Giombi, I.R. Klebanov, G. Tarnopolsky, Generalized F-Theorem and the ε Expansion, J. High Energy Phys. 1512, 155 (2015); arXiv:1507.01960, WoS: 000411149500001, Scopus: 2-s2.0-84952888667, ADS: 2015JHEP...12..155F, InSpire: 1381940, RINTs: 26957410.
    16. L. Fei, S. Giombi, I.R. Klebanov, G. Tarnopolsky, Three loop analysis of the critical O(N) models in 6−ε dimensions, Phys. Rev. D 91, 045011 (2015); arXiv:1411.1099, WoS: 000349487600003, Scopus: 2-s2.0-84922495861, ADS: 2015PhRvD..91d5011F, InSpire: 1326153, RINTs: 31772689, MathSciNet: 3413304, zbMath: -.
    17. A.A. Belavin, M.A. Bershtein, B.L. Feigin, A.V. Litvinov, G.M. Tarnopolsky, Instanton moduli spaces and bases in coset conformal field theory, Commun. Math. Phys., 319(1), 269-301 (2013); arXiv:1111.2803, WoS: 000316490100007, Scopus: 2-s2.0-84868216610, ADS: 2013CMaPh.319..269B, InSpire: 945528, RINTs: 28673976, MathSciNet: 3034031, zbMath: 1263.81252.
    18. A.A. Belavin, M.A. Bershtein, G.M. Tarnopolsky, Bases in coset conformal field theory from AGT correspondence and Macdonald polynomials at the roots of unity, J. High Energy Phys., 1303, 019 (2013); arXiv:1211.2788, WoS: 000317521200019, Scopus: 2-s2.0-84876268456, ADS: 2013JHEP...03..019B, InSpire: 1202334, RINTs: 24948759, MathSciNet: 3046746, zbMath: 1342.81173.
    19. M.N. Alfimov, A.A. Belavin, G.M. Tarnopolsky, Coset conformal field theory and instanton counting on ℂ2/ℤp, J. High Energy Phys., 1308, 134 (2013); arXiv:1306.3938, WoS: 000324114000035, Scopus: 2-s2.0-84884559738, ADS: 2013JHEP...08..134A, InSpire: 1238850, RINTs: 24939965, MathSciNet: 3106304, zbMath: 1342.81473.
    20. S. Giombi, I.R. Klebanov, S.S. Pufu, B.R. Safdi, G. Tarnopolsky, AdS description of induced higher-spin gauge theory, J. High Energy Phys., 1310, 016 (2013); arXiv:1306.5242, WoS: 000325221200005, Scopus: 2-s2.0-84887583459, ADS: 2013JHEP...10..016G, InSpire: 1239678, RINTs: 25176866, MathSciNet: 3110715, zbMath: 1342.83263.
    21. M.N. Alfimov, G.M. Tarnopolsky, Parafermionic Liouville field theory and instantons on ALE spaces, J. High Energy Phys., 1202, 036 (2012); arXiv:1110.5628, WoS: 000301451200036, Scopus: 2-s2.0-84857815015, ADS: 2012JHEP...02..036A, InSpire: 942712, RINTs: 24934593, MathSciNet: 2996119, zbMath: 1309.81141.
    22. G.M. Tarnopolskiy, Five-point correlation numbers in a one-matrix model, J. Phys. A 44, 325401 (2011); arXiv:0912.4971, WoS: 000293176700017, Scopus: 2-s2.0-80051538698, ADS: 2011JPhA...44F5401T, InSpire: 841241, RINTs: 18058387, MathSciNet: 2821946, zbMath: 1226.81231.
    23. V.A. Alba, V.A. Fateev, A.V. Litvinov, G.M. Tarnopolskiy, On combinatorial expansion of the conformal blocks arising from AGT conjecture, Lett. Math. Phys., 98(1), 33-64 (2011); arXiv:1012.1312, WoS: 000294964200002, Scopus: 2-s2.0-80052846705, ADS: 2011LMaPh..98...33A, InSpire: 879875, RINTs: 18005699, MathSciNet: 2836428, zbMath: 1242.81119.
    24. A. Belavin, M. Bershtein, G. Tarnopolsky, A remark on the three approaches to 2D quantum gravity, Pis’ma v ZhETF, 93 (2), 51-55 (2011) [JETP Lett., 93(2), 47-51 (2011)]; arXiv:1010.2222, WoS: 000288864500001, Scopus: 2-s2.0-79953139922, ADS: 2011JETPL..93...47B, InSpire: 872499, RINTs: 15633666.
    25. A.A. Belavin, G.M. Tarnopolsky, Two dimensional gravity in genus one in matrix models, topological and Liouville approaches, Pis’ma v ZhETF, 92 (4), 286-295 (2010) [JETP Lett., 92(4), 257-267 (2010)]; arXiv:1006.2056, WoS: 000284470400012, Scopus: 2-s2.0-78149475481, ADS: 2010JETPL..92..257B, InSpire: 857654, RINTs: 16230539.
    26. A.A. Belavin, G.M. Tarnopol’skii, Vvedenie v teoriyu strun i konformnuyu teoriyu polya, Yadernaya fizika, 73(5), 879-908 (2010) [A.A. Belavin, G.M. Tarnopolsky, Introduction to string theory and conformal field theory, Phys. Atomic Nuclei, 73(5), 848-877 (2010)], WoS: 000278120900010, Scopus: 2-s2.0-77952997201, ADS: 2010PAN....73..848B, InSpire: 861638, RINTs: 15108519.