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Main Authors: Tedesco, Antonio, Capolupo, Antonio, Lambiase, Gaetano
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2311.15944
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author Tedesco, Antonio
Capolupo, Antonio
Lambiase, Gaetano
author_facet Tedesco, Antonio
Capolupo, Antonio
Lambiase, Gaetano
contents We find a new solution to calculate the orbital periastron advance of a test body subject to a central gravitational force field, for relativistic theories and models beyond Einstein. This analitycal formula has general validity that includes all the post-Newtonian (PN) contributions to the dynamics and is useful for high-precision gravitational tests. The solution is directly applicable to corrective potentials of various forms, without the need for numerical integration. Later, we apply it to the Scalar Tensor Fourth Order Gravity (STFOG) and NonCommutative Geometry, providing corrections to the Newtonian potential of Yukawa-like form $V(r)=α\frac{e^{-βr}}{r}$, and we conduct the first analysis involving all the PN terms for these theories. The same work is performed with a Schwarzschild geometry perturbed by a Quintessence Field, leading to a power-law potential $V(r)=α_q {r}^q$. Finally, by using astrometric data of the Solar System planetary precessions and those of S2 star around Sgr A*, we infer new theoretical constraints and improvements in the bounds for $β$. The resulting simulated orbits turn out to be compatible with General Relativity.
format Preprint
id arxiv_https___arxiv_org_abs_2311_15944
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Relativistic periastron advance beyond Einstein theory: analytical solution with applications
Tedesco, Antonio
Capolupo, Antonio
Lambiase, Gaetano
General Relativity and Quantum Cosmology
We find a new solution to calculate the orbital periastron advance of a test body subject to a central gravitational force field, for relativistic theories and models beyond Einstein. This analitycal formula has general validity that includes all the post-Newtonian (PN) contributions to the dynamics and is useful for high-precision gravitational tests. The solution is directly applicable to corrective potentials of various forms, without the need for numerical integration. Later, we apply it to the Scalar Tensor Fourth Order Gravity (STFOG) and NonCommutative Geometry, providing corrections to the Newtonian potential of Yukawa-like form $V(r)=α\frac{e^{-βr}}{r}$, and we conduct the first analysis involving all the PN terms for these theories. The same work is performed with a Schwarzschild geometry perturbed by a Quintessence Field, leading to a power-law potential $V(r)=α_q {r}^q$. Finally, by using astrometric data of the Solar System planetary precessions and those of S2 star around Sgr A*, we infer new theoretical constraints and improvements in the bounds for $β$. The resulting simulated orbits turn out to be compatible with General Relativity.
title Relativistic periastron advance beyond Einstein theory: analytical solution with applications
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2311.15944