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Autor principal: Guenouche, Mourad
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2406.10436
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author Guenouche, Mourad
author_facet Guenouche, Mourad
contents A method of general applicability has been developed, whereby the null geodesic equations of the Einstein-Straus-de Sitter metric can be integrated simultaneously in terms of the curvature constant $k$. The purpose is to generalize the computation of light deflection and time delay by a spherical mass distribution. Assuming a flat Universe with most recent measurements of the Hubble constant $H_0$ and the cosmological constant $Λ$, five time delays between the four bright images of the lensed quasar SDSS J1004+4112 have been forecasted and compared to others in the field. In addition, we have reviewed the question of the possible contribution of a positive $Λ$ to reduce the light bending, and concluded that the changes are seemingly too small to be appreciable on cosmological scales. The same conclusion has been reached regarding the time delay. Having addressed the question of the effect of the spatial curvature in both closed and open Universe, we have found that the strong lensing is slightly affected by the expected small curvature density $Ω_{k0}$ of the current Universe within its error bar $|Ω_{k0}|\lessapprox 0.001$, in such a way that it may safely be neglected. However, it's only if $Ω_{k0}$ gets quite larger that the effect being noticeable. While it is only theoretically possible for $Ω_{k0}$ to be higher, it's worthwhile to stress that this should impact the light bending and time delay, causing them to decrease or increase depending upon whether the spatial curvature is positive or negative. Furthermore, one can infer that the observed light deflection and time delay independently, that are found to be significantly deviated from those of the flat Universe, may serve as a useful means to provide constraints on $Ω_{k0}$, thus making the approach employed in this work more promising than others.
format Preprint
id arxiv_https___arxiv_org_abs_2406_10436
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Effect of the spatial curvature on light bending and time delay in curved Einstein-Straus--de Sitter spacetime
Guenouche, Mourad
General Relativity and Quantum Cosmology
A method of general applicability has been developed, whereby the null geodesic equations of the Einstein-Straus-de Sitter metric can be integrated simultaneously in terms of the curvature constant $k$. The purpose is to generalize the computation of light deflection and time delay by a spherical mass distribution. Assuming a flat Universe with most recent measurements of the Hubble constant $H_0$ and the cosmological constant $Λ$, five time delays between the four bright images of the lensed quasar SDSS J1004+4112 have been forecasted and compared to others in the field. In addition, we have reviewed the question of the possible contribution of a positive $Λ$ to reduce the light bending, and concluded that the changes are seemingly too small to be appreciable on cosmological scales. The same conclusion has been reached regarding the time delay. Having addressed the question of the effect of the spatial curvature in both closed and open Universe, we have found that the strong lensing is slightly affected by the expected small curvature density $Ω_{k0}$ of the current Universe within its error bar $|Ω_{k0}|\lessapprox 0.001$, in such a way that it may safely be neglected. However, it's only if $Ω_{k0}$ gets quite larger that the effect being noticeable. While it is only theoretically possible for $Ω_{k0}$ to be higher, it's worthwhile to stress that this should impact the light bending and time delay, causing them to decrease or increase depending upon whether the spatial curvature is positive or negative. Furthermore, one can infer that the observed light deflection and time delay independently, that are found to be significantly deviated from those of the flat Universe, may serve as a useful means to provide constraints on $Ω_{k0}$, thus making the approach employed in this work more promising than others.
title Effect of the spatial curvature on light bending and time delay in curved Einstein-Straus--de Sitter spacetime
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2406.10436