Russian Academy of Sciences

Landau Institute for Theoretical Physics

Sergei E. Parkhomenko

Researcher

Ph. D.

Email:

Publications

    1. A.A. Belavin, S.E. Parkhomenko, Yavnaya konstruktsiya N=2 superkonformnykh orbifoldov, TMF, 209(1), 59-81 (2021) [Theoret. Math. Phys., 209(1), 1367-1386 (2021)].
    2. S.E. Parkhomenko, Generalized Kähler Geometry in Kazama-Suzuki coset models, Physics Letters B 803, 135346 (2020); arXiv:1908.08975, WoS: 000521730300027, Scopus: 2-s2.0-85080970318, ADS: 2020PhLB..80335346P, RINTs: 43256936, MathSciNet: 4073539, zbMath: 1434.81113.
    3. S.E. Parkhomenko, Generalized Kähler geometry and current algebras in classical N = 2 superconformal WZW model, Int. J. Mod. Phys. A 33(12), 1850065 (2018); arXiv:1801.05184, WoS: 000431292700003, Scopus: 2-s2.0-85046264546, zbMath: 1387.81329.
    4. S.E. Parkhomenko, Generalized Kähler Geometry and current algebras in SU(2) × U(1) N = 2 superconformal WZW model, Mod. Phys. Lett. A 32(13), 1750076 (2017); arXiv:1701.05229, WoS: 000400148800004, Scopus: 2-s2.0-85017503490, zbMath: 1365.81096.
    5. S.E. Parkhomenko, Line bundle twisted chiral de Rham complex and bound states of D-branes on toric manifolds, Nucl. Phys. B 881, 233-247 (2014); arXiv:1307.0080, WoS: 000334815600007, Scopus: 2-s2.0-84894341299, zbMath: 1284.81243.
    6. S.E. Parkhomenko, Line bundle twisted chiral de Rham complex, chiral Riemann-Roch formula and D-branes on toric manifolds, Pis’ma v ZhETF, 99 (1), 45-49 (2014) [JETP Letters, 99(1), 42-46 (2014)], WoS: 000333470400009, Scopus: 2-s2.0-84897099148.
    7. S.E. Parkhomenko, Kazama-Suzuki models of N=2 superconformal field theory and Manin triples, Pis’ma v ZhETF, 100 (8), 545-548 (2014) [JETP Letters, 100(8), 487-490 (2014)]; arXiv:1410.2977, WoS: 000347917700001, Scopus: 2-s2.0-84920528457.
    8. S.E. Parkhomenko, Fermionic screenings and line bundle twisted chiral de Rham complex on CY manifolds, ZhETF, 141(1), 47-55 (2012) [JETP, 114(1), 39-47 (2012)]; arXiv:1105.4439, WoS: 000301732800004, Scopus: 2-s2.0-84860121576.
    9. S.E. Parkhomenko, Free-field Representations and Geometry of some Gepner models, ZhETF, 138(3), 425-433 (2010) [JETP, 111(3), 375-383 (2010)]; arXiv:0912.5253, Scopus: 2-s2.0-78649739877.
    10. S.E. Parkhomenko, Gepner-like models and Landau-Ginzburg/sigma-model correspondence, J. Phys. A 42, 304023 (2009) (11pp); arXiv:0901.0130, zbMath: 1177.81091.
    11. S.E. Parkhomenko, Free Field Construction of D-Branes in Rational Models of CFT and Gepner Models, SIGMA 4, 025 (2008), 14 pages; arXiv:0802.3445, zbMath: 1232.81049.
    12. S.E. Parkhomenko, Free-field representation of permutation branes in Gepner models, ZhETF, 129(6), 1026-1042 (2006) [JETP, 102(6), 902-919 (2006)]; hep-th/0512322.
    13. S.E. Parkhomenko, Free-field approach to D-branes in Gepner models, Nucl. Phys. B 731(3), 360-388 (2005); hep-th/0412296, zbMath: 1192.81286.
    14. S.E. Parkhomenko, Free field approach to D-branes in N=2 superconformal minimal models, Int. J. Mod. Phys. A 19, Suppl.2, 294-310 (2004), zbMath: 1080.81590.
    15. S. Klimchik, S.E. Parkhomenko, O T-dual’nosti Puassona–Li i nulevykh modakh, TMF, 139(3), 462–476 (2004) [C. Klimčík, S.E. Parkhomenko, The Poisson-Lie T-duality and zero modes, Theor. Math. Phys., 139(3), 834-845 (2004)], zbMath: 1178.81225.
    16. S.E. Parkhomenko, Free field construction of D-branes in N=2 superconformal minimal models, Nucl. Phys. B 671 (1-3), 325-342 (2003); hep-th/0301070, zbMath: 1058.81669.
    17. S.E. Parkhomenko, BRST construction of D-branes in SU(2) WZW model, Nucl. Phys. B 617 (1-3), 198-214 (2001); hep-th/0103142, WoS: 000172471800007, Scopus: 2-s2.0-0035803807, ADS: 2001NuPhB.617..198P, InSpire: 554282, RINTs: 13386897, MathSciNet: 1866764, zbMath: 0973.81095.
    18. C. Klimcik, S. Parkhomenko, Monodromic strings, hep-th/0010084, ADS: 2000hep.th...10084K, InSpire: 534918.
    19. C. Klimčík, S.E. Parkhomenko, Supersymmetric gauged WZNW models as dressing cosets, Phys. Lett. B 463 (2-4), 195-200 (1999); hep-th/9906163, WoS: 000083195200010, Scopus: 2-s2.0-3042832986, ADS: 1999PhLB..463..195K, InSpire: 502218, RINTs: 13312890, MathSciNet: 1722266, zbMath: 0987.81103.
    20. S.E. Parkhomenko, The quantum Poisson-Lie T-duality and mirror symmetry, ZhETF, 116(1), 11-25 (1999) [JETP, 89(1), 5-12 (1999)]; hep-th/9812048, WoS: 000082073200002, Scopus: 2-s2.0-22644448541, ADS: 1999JETP...89....5P, InSpire: 480617, RINTs: 13323315, MathSciNet: 1707369.
    21. S.E. Parkhomenko, Mirror symmetry as a Poisson-Lie T-duality, Mod. Phys. Lett. A 13(13), 1041-1054 (1998); hep-th/9710037, WoS: 000073980000005, Scopus: 2-s2.0-0039038964, ADS: 1998MPLA...13.1041P, InSpire: 449373, RINTs: 13297405, MathSciNet: 1634032, zbMath: -.
    22. S.E. Parkhomenko, Poisson-Lie T-duality and complex geometry in N = 2 superconformal WZNW models, Nucl. Phys. B 510 (3), 623-639 (1998); hep-th/9706199, WoS: 000071955400006, Scopus: 2-s2.0-0032567612, ADS: 1998NuPhB.510..623P, InSpire: 444929, RINTs: 13303383, MathSciNet: 1607176, zbMath: 0953.81091.
    23. S.E. Parkhomenko, Poisson-Lie T-duality and N=2 superconformal WZNW models on compact groups, Mod. Phys. Lett. A 12(39), 3091-3103 (1997); hep-th/9705233, WoS: 000071714400009, Scopus: 2-s2.0-0007197236, ADS: 1997MPLA...12.3091P, RINTs: 13258867, MathSciNet: 1603971, zbMath: -.
    24. S.E. Parkhomenko, Quasi Frobenius Lie algebras construction of N=4 superconformal field theories, Mod. Phys. Lett. A 11 (6), 445-461 (1996); hep-th/9503071, WoS: A1996UD57500003, Scopus: 2-s2.0-0010027716, ADS: 1996MPLA...11..445P, InSpire: 393359, RINTs: 13239831, MathSciNet: 1382254, zbMath: 1022.81748.
    25. S.E. Parkhomenko, O T-dual’nosti Puassona-Li v dvumernykh N=2 superkonformnykh teoriyakh polya, Pis’ma v ZhETF, 64(12), 823-828 (1996) [S.E. Parkhomenko, On the Poisson-Lie T-duality in two-dimensional N=2 superconformal field theories, JETP Lett., 64(12), 877-883 (1996)]; hep-th/9612034, WoS: A1996WF09000002, Scopus: 2-s2.0-10644264357, ADS: 1996JETPL..64..877P, InSpire: 426847, RINTs: 13237632.
    26. B. Feigin, S. Parkhomenko, Regular representations of affine Kac-Moody algebras, Mathematical Physics Studies, Vol. 19, 415-424 (1996) [Algebraic and geometric methods in mathematical physics: Proc. 1st Ukrainian-French-Romanian summer school, Kaciveli, Ukraine, Sept. 1-14, 1993. Ed. by A. Boutet de Monvel, Anne and V. Marchenko, Dordrecht: Kluwer Academic Publishers, 1996. ISBN 0-7923-3909-6]; hep-th/9308065, WoS: A1996BE98K00024, MathSciNet: 1385697, zbMath: 0919.17020.
    27. S.E. Parkhomenko, Physical States in Topological N=2 Supersymmetric WZNW Models, Mod. Phys. Lett. A 9(22), 2049-2062 (1994); hep-th/9303162, WoS: A1994PE36200008, Scopus: -, ADS: 1994MPLA....9.2049P, InSpire: 353496, MathSciNet: 1290287, zbMath: 1021.81876.
    28. S.E. Parkhomenko, Rasshirennye superkonformnye algebry tokov i konechnomernye troiki Manina, ZhETF, 102 (1), 3-7 (1992) [S.E. Parkhomenko, Extended superconformal current-algebras and finite-dimensional Manin triples, Sov. Phys. JETP 75(1), 1-3 (1992)], WoS: A1992JK40800001, InSpire: 346234, MathSciNet: 1177158.