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A homogeneous multicomponent cosmological model with interacting spinor, scalar, and vector fields in the presence of dark energy

  • ELEMENTARY PARTICLE PHYSICS AND FIELD THEORY
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Russian Physics Journal Aims and scope

The evolution of a homogeneous multicomponent cosmological model with interacting spinor, vector, and scalar fields in the presence of dark energy described by the ideal liquid with the corresponding state equation is considered. The source of the vector and spinor fields is the kinetic energy of the inflation (scalar) field that is modeled by introduction of Lagrangians for the spinor and vector fields interacting with the scalar field through the squared gradient. A system of the dynamic Einstein–Proca–Klein–Fock and ideal liquid equations in the presence of interaction of the cosmological model components is solved. The role of individual components in the process of model evolution is elucidated.

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Authors and Affiliations

  1. Yaroslavl’ State Pedagogical University, Yaroslavl’, Russia

    V. G. Krechet

  2. Institute of Gravitation and Cosmology at the Russian University of People Friendship, Moscow, Russia

    M. L. Fil’chenkov

  3. Russian University of People Friendship, Moscow, Russia

    G. N. Shikin

Authors
  1. V. G. Krechet
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  2. M. L. Fil’chenkov
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  3. G. N. Shikin
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Corresponding author

Correspondence to G. N. Shikin.

Additional information

Translated from Izvestiya Vysshikh Uchebnykh Zavedenii, Fizika, No. 10, pp. 53–58, October, 2009.

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Krechet, V.G., Fil’chenkov, M.L. & Shikin, G.N. A homogeneous multicomponent cosmological model with interacting spinor, scalar, and vector fields in the presence of dark energy. Russ Phys J 52, 1060–1067 (2009). https://doi.org/10.1007/s11182-010-9339-8

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  • DOI: https://doi.org/10.1007/s11182-010-9339-8

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