Properties of compact objects in quadratic non-metricity gravity

Authors

Gamal Nashed, The British University in Egypt
Kazuharu Bamba, Fukushima University

Document Type

Article

Publication Date

2025

Abstract

Astrophysical compact objects are studied in the context of quadratic non-metricity gravity. The solutions to the gravitational field equations, which include fluid components, are analyzed to investigate the density and pressure properties of radio pulsars. It is explicitly demonstrated that the theoretically stable models are consistent with astronomical data, due to the geometric features of the quadratic component. Furthermore, it is shown that, in contrast to the compactness limits of black holes in general relativity, the core density can significantly exceed the density at which nuclear saturation occurs, and the surface density can also surpass the value of nuclear saturation. Additionally, it is found that the radial sound speed remains below the conformal upper bound for sound velocity established by perturbative quantum chromodynamics.

Recommended Citation

Nashed, Gamal and Bamba, Kazuharu, "Properties of compact objects in quadratic non-metricity gravity" (2025). Centre for Theoretical Physics and Computations. 338.
https://buescholar.bue.edu.eg/centre_theoretical_physics/338