Prof.-Dr. Sergei V. Ketov


In:  Cosmology    Supersymmetry and Supergravity    Strings and Superstrings     Branes and M-Theory    Conformal Field theory    Non-linear Sigma-models


- First construction of the so-called N=2 supersymmetric tensor multiplets in 4D, N=2 projective superspace, first derivation of the manifestly N=4 supersymmetric Feynman rules in 2D, and their use for a proof of the UV-finiteness of 2D, N=4 supersymmetric non-linear sigma-models: S.V. Ketov, New Self-interaction for N = 2 Multiplets in 4D, and Ultraviolet Finiteness of Two-dimensional 2D, N = 4 Sigma-models, Intern. Seminar in Group Theory Methods in Physics, Urmala, USSR, 1985; Nauka, Moscow, Vol. 1, p. 87;

- First explicit construction of all the IRREDUCIBLE SU(2)-extended scalar superfields in 4D, N=2 Superspace: S.V. Ketov, N=2 Extended Supersymmetry and Irreducible SU(2) Extended Superfields, Fortschr. Phys. 36, 361, 1988;

- First explicit calculation of the 3-LOOP renormalization group beta-function and Zamolodchikov effective action in a generic 2D non-linear sigma-model WITH TORSION: S.V. Ketov, A.A. Deriglazov and Ya.S. Prager, Three-loop Beta-function of Two-dimensional Non-linear Sigma-model with Wess-Zumino-Witten Term, Nucl. Phys. B332, 447, 1990;

- First explicit construction of the SELF-DUAL supersymmetric Yang-Mills and supergravity theories in N=1, 2 and 4 Superspace: S.V. Ketov, S.J. Gates Jr., and N. Hishino, Self-Dual Supersymmetry and Supergravity, Nucl. Phys. B393, 149, 1993; over 75 citations

- First explicit construction of the PATH INTEGRAL MEASURE and the SPECTRAL FLOW OPERATOR in N=2 string theory: S.V. Ketov and O. Lechtenfeld, The string measure and spectral flow of critical N=2 strings, Phys. Lett. B353, 463, 1995;

- First explicit construction of the EXCEPTIONAL NON-LINEAR N=7 and N=8 SUPERCONFORMAL ALGEBRAS in terms of free fields, based on their relation to octonions and 7-sphere, M. Gunaydin and S.V.Ketov, Seven-Sphere, and the Exceptional N=7 and N=8 Superconformal Algebras, Nucl. Phys. B467, 215, 1996;

- First manifestly N=2 supersymmetric calculation of the ONE-LOOP HYPERMULTIPLET low-energy effective action: E.A Ivanov, S.V. Ketov and B.M. Zupnik, Induced Hypermultiplet Interactions in N=2 Gauge Theories, Nucl. Phys. B509, 53, 1998; over 50 citations

- First construction of the N=1 and N=2 SUPERSYMMETRIC Abelian and non-Abelian BORN-INFELD actions in superspace in 4D and 6D: S.V. Ketov, Manifestly N=2 Supersymmetric Born-Infeld Action, Mod.Phys. Lett. A14, 501, 1999; S.V. Ketov, Born-Infeld-Goldstone Superfield Actions for Gauge-fixed D-5- and D-3-branes in 6d, Nucl. Phys. B553, 250, 1999; (known as the "Ketov equation" for the N=2 Born-Infeld theory in the literature) over 50 citations

- First explicit SUMMATION of D-INSTANTONS (from D-branes wrapped over Calabi-Yau cycles): S.V. Ketov, Summing up D-instantons, Nucl. Phys. B649, 365, 2003;

- First explicit construction of the 4D, N=1/2 supersymmetric non-linear sigma models in NON-ANTI-COMMUTATIVE superspace, with the physical effects of smearing and splitting: T. Hatanaka, S.V. Ketov, Y. Kobayashi and S. Sasaki, N=1/2 supersymmetric 4-dimensional non-linear sigma-models from non-anti-commutative superspace, Nucl. Phys. B726, 481, 2005;

- First construction of F(R) SUPERGRAVITY in superspace and their application to INFLATION: S. J. Gates Jr. and S.V. Ketov, Superstring-induced supergravity as the universal source of inflation and quintessence, Phys. Lett. B674, 2753, 2010; also S.V. Ketov and A.A. Starobinsky, Embedding (R+R^2) inflation into supergravity, Phys. Rev. D063512, 2011;

- First realization of INFLATION in supergravity with a SINGLE matter superfield: S.V. Ketov and T. Terada, Inflation in supergravity with a single chiral superfield, Phys. Lett. B736, 272, 2014

- First realization of INFLATION with spontaneous SUSY breaking and a dS vacuum after inflation, in supergravity with inflaton in a massive vector multiplet: Y. Aldabergenov and S.V. Ketov, SUSY breaking after inflation in supergravity with inflaton in a massive vector supermultiplet, Phys. Lett. B761, 115, 2016

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