An Ultra-compact Object from Semi-classical Gravity
Abstract
In a recent report, Carballo-Rubio [1] utilizes the semi-classical theory of gravity to obtain a generalized Tolman-Oppenheimer-Volkoff (TOV) equation. This model has a new coupling constant implying two different modified TOV equation forms characterized by the sign of . The negative branch reduces to the ordinary GR-TOV in the limit of , while the positive one does not. In the positive branch, Carballo-Rubio was able to find the exact solutions using the constant- trick. In this work, we investigate whether this theory's negative branch can also provide a different feature of the ultra-compact object compared to those obtained from the GR-TOV equation. We study ultra-compact objects with an isotropically ideal fluid matter where we use a simple but physically motivated equation of state with =1 and =1/3. In general, we obtain that the range of is very restricted and must not be equal to . Here is the starting point of integration located at the center of the star. While should be set to be much larger than Planck length . Consequently, the mass-radius curves for the various value of for both cases are still indistinguishable from the standard GR-TOV results. Hence from the negative branch of , the additional free parameter does not provide a significant effect compared to the standard GR-TOV equation results, even though is not in the limit of anymore. Therefore, similar to the conclusion in Ref. [3] with GR theory that the ultra-compact objects from negative branch of semi-classical gravity with a linear equation of state are unable to generate demanding gravitational echoes.
Cite
@article{arxiv.2105.11691,
title = {An Ultra-compact Object from Semi-classical Gravity},
author = {I. Prasetyo and H. S. Ramadhan and A. Sulaksono},
journal= {arXiv preprint arXiv:2105.11691},
year = {2021}
}
Comments
33 pages, 9 figures, accepted for publication in Physical Review D