Deflection and gravitational lensing of null and timelike signals in general asymptotically (anti–)de Sitter spacetimes

The deflection and gravitational lensing of light and massive particles in arbitrary static, spherically symmetric and asymptotically (anti–)de Sitter spacetimes are considered in this work. We first proved that for spacetimes whose metric satisfies certain conditions, the deflection of null rays wi...

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Bibliographic Details
Published in:Physical review. D 2021-10, Vol.104 (8), p.1, Article 084027
Main Authors: Li, Zixiao, Liu, Haotian, Jia, Junji
Format: Article
Language:English
Subjects:
Asymptotic properties
Cosmological constant
Deflection
Gravitational lenses
Spacetime
Time lag
Travel time
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Summary:The deflection and gravitational lensing of light and massive particles in arbitrary static, spherically symmetric and asymptotically (anti–)de Sitter spacetimes are considered in this work. We first proved that for spacetimes whose metric satisfies certain conditions, the deflection of null rays with fixed closest distance will not depend on the cosmological constant Λ , while that of timelike signals and the apparent angle in gravitational lensing still depend on Λ . A two-step perturbative method is then developed to compute the change of the angular coordinate and total travel time in the weak field limit. The results are quasipower series of two small quantities, with the finite distance effect of the source/detector naturally taken into account. These results are verified by applying to some known asymptotically de Sitter spacetimes. Using an exact gravitational lensing equation, we solved the apparent angles of the images and time delays between them and studied the effect of Λ on them. It is found that generally, a small positive Λ will decrease the apparent angle of images from both sides of the lens and increase the time delay between them. The time delay between signals from the same side of the lens but with different energy however, will be decreased by Λ .
ISSN:2470-0010
2470-0029
DOI:10.1103/PhysRevD.104.084027