Vol. 11 (01) pp. 157-173 DOI: 10.21474/IJAR01/16003

SOLITON OF SELF-CONSISTENT SYSTEM OF NONLINEAR SPINOR AND GRAVITATIONAL FIELDS WITH THE ARBI- TRARY FUNCTION DEPENDING ON THE BILINEAR PAULI- FIERZ INVARIANT IS = S2 IN GENERAL RELATIVITY

  • Laboratory of Theoretical Physics and Physics Mathematics, University of Abomey-Calavi, Abomey- Calavi, Benin.
  • National Higher Institute of Industrial Technology, National University of Sciences, Technology, Engi- neering and Mathematics of Abomey, Abomey, Benin.
  • National Higher School of Public Works, National University of Sciences, Technology, Engineering and Mathematics of Abomey, Abomey, Benin.
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Abstract

A self-consistent system of nonlinear spinor and gravitational fields, modeled by static spherical symmetric metric, is considered and studied. Exact spherical symmetric solutions of nonlinear spinor field equations in the Gravitational Theory are obtained. The nonlinearity in the spinor lagrangian is given by an arbitrary function which depends on the invariant generated from the Fierz-Pauli bilinear spinor form IS = S2.  It is shown that a soliton-like configuration has a localized energy density and a finite total energy. In addition, The total charge and total spin are also finite. Let us emphasize that the effect of gravitational field on the properties of regular localized solutions significantly depends on the symmetry of the system. The nonlin- ear terms, the gravitational field of elementary particles and the geometrical properties of the metric of the space-time play an important role in the obtaining of analytical solutions having the soliton-like configuration. Let us emphasize that the numerical solutions of the solutions obtained here are presented in graphical form.

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How to Cite This Article

Miton Abel Konnon, Adebayo Louis Essoun, Marius S. B. Koube, Jonas Edou, A. Adomou and Siaka Massou (2023); SOLITON OF SELF-CONSISTENT SYSTEM OF NONLINEAR SPINOR AND GRAVITATIONAL FIELDS WITH THE ARBI- TRARY FUNCTION DEPENDING ON THE BILINEAR PAULI- FIERZ INVARIANT IS = S2 IN GENERAL RELATIVITY, Int. J. of Adv. Res., 11 (01), 157-173, ISSN 2320-5407. DOI: https://doi.org/10.21474/IJAR01/16003

Corresponding Author

Dr Jonas EDOU
University of Abomey-calavi, Republic of Bénin