R. F. L. Holanda
Published 2016-05-30Version 1
The angular diameter distance of lens, $D_{Aol}$, of strong gravitational lensing systems has been claimed as a cosmic standard ruler. The first measurements for this distance were recently obtained to two well-known systems: B1608+656 and RXJ1131-1231. However, there is a range of possible systematic uncertainties which must be addressed in order to turn these systems into useful cosmic probes. In this paper, we confront $D_{Aol}$ with luminosity distances of type Ia supernovae and angular diameter distances of galaxy clusters to search for tensions between these cosmological measurements using the cosmic distance duality relation. No tension was verified with the present data, showing the robustness of the assumptions used to describe the lens systems.
Comments: 5 pages, two figures
Testing the cosmic distance duality relation using Type Ia supernovae and BAO observations
Testing the cosmic distance duality relation using Type Ia supernovae and radio quasars through model-independent methods
Cosmological-model-independent tests of cosmic distance duality relation with Type Ia supernovae and radio quasars
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