European Physical Journal C: Particles and Fields (Feb 2024)

Relativistic orbits of S2 star in the presence of scalar field

  • Parth Bambhaniya,
  • Ashok B. Joshi,
  • Dipanjan Dey,
  • Pankaj S. Joshi,
  • Arindam Mazumdar,
  • Tomohiro Harada,
  • Ken-ichi Nakao

DOI
https://doi.org/10.1140/epjc/s10052-024-12477-3
Journal volume & issue
Vol. 84, no. 2
pp. 1 – 7

Abstract

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Abstract The general theory of relativity predicts the relativistic effect in the orbital motions of S-stars which are orbiting around our Milky-way Galactic Center. The post-Newtonian or higher-order approximated Schwarzschild black hole models have been used by GRAVITY and UCLA Galactic Center groups to carefully investigate the S2 star’s periastron precession. In this paper, we investigate the scalar field effect on the orbital dynamics of S2 star. Hence, we consider a spacetime, namely Janis-Newman-Winicour (JNW) spacetime which is seeded by a minimally coupled, mass-less scalar field. The novel feature of this spacetime is that one can retain the Schwarzschild spacetime from JNW spacetime considering zero scalar charge. We constrain the scalar charge of JNW spacetime by best fitting the astrometric data of S2 star using the Monte-Carlo–Markov-Chain (MCMC) technique assuming the charge to be positive. Our best-fitted result implies that similar to the Schwarzschild black hole spacetime, the JNW naked singularity spacetime with an appropriate scalar charge also offers a satisfactory fitting to the observed data for S2 star. Therefore, the JNW naked singularity could be a contender for explaining the nature of Sgr A* through the orbital motions of the S2 star.