The distance sum rule from strong lensing systems and quasars – test of cosmic curvature and beyond

Qi, Jing-Zhao; Cao, Shuo; Zhang, Sixuan; Biesiada, Marek; Wu, Yizhou; Zhu, Zong-Hong

doi:10.1093/mnras/sty3175

Cited by 59 publications

(48 citation statements)

References 66 publications

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“…Therefore, more well-measured strong lensing events might be very useful for reducing the bias in estimation of curvature. In this sense, analyzing simulated SGL observations from Large Synoptic Survey Telescope (LSST) can give some predictions for constraints on cosmological parameters (Collett 2015;Cao et al 2018;Qi et al 2018;Ma et al 2019). Qi et al (2018) have found that, combining about 16000 strong lensing events combined with the distance information provided by 500 compact radio quasars, one can constrain the cosmic curvature with an accuracy of Ω k 10 −3 , which is comparable to the precision of Planck 2015 results.…”

Section: Resultsmentioning

confidence: 99%

“…Our procedure follows the phenomenological model which quantifies the luminosity L and redshift z dependence of the linear sizes of quasars as (Gurvtis. 1994;Gurvtis et al 1999;Cao et al 2017a;Qi et al 2018)…”

Section: Distances: D L and D Smentioning

confidence: 98%

“…The parameter β(r) = 1 − σ 2 θ /σ 2 r denotes the anisotropy of the stellar velocity dispersion, and is also called as the stellar orbital anisotropy, where σ θ and σ r are the tangential and radial velocity dispersions, respectively. In the literature, β is usually assumed independent of r (Schwab et al 2010;Cao et al 2016;Xia et al 2017;Qi et al 2018;Chen et al 2019). Following these previous works, we also treat β as a nuisance parameter and marginalize over it using a Gaussian prior with β = 0.18 ± 0.13, based on the well-studied sample of nearby elliptical galaxies.…”

Section: Distances: D L and D Smentioning

confidence: 99%

“…1, we also show the redshift distribution of lens and source galaxies of SGL systems. A model-independent method of Gaussian processes (Seikel et al 2012) was applied to reconstruct the dimensionless comoving distance from the ILQSO data straightforwardly, without any parametric assumption regarding cosmological model (Qi et al 2018). However, the fidelity of reconstructed function from most currently available observational data with the Gaussian processes should be further discussed and tested (Zhou & Li 2019).…”

Section: Distances: D L and D Smentioning

confidence: 99%

“…So far, several following studies have been carried out with the latest SGL and SNe Ia (Betoule et al 2014) observations at that time (Xia et al 2017;Li et al 2018a). In addition, Qi et al (2018) have used radio quasars as distance indicators (Gurvtis et al 1999;Cao et al 2017a) together with SGL observations to extend the analysis to higher redshift. They obtained that, compared with constraints on the curvature obtained in Räsänen et al (2015), a spatially flat universe is not preferred at higher confidence level.…”

Section: Introductionmentioning

confidence: 99%

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Model-independent Estimations for the Cosmic Curvature from the Latest Strong Gravitational Lensing Systems

Zhou

2020

ApJ

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Model-independent measurements for the cosmic spatial curvature, which is related to the nature of cosmic space-time geometry, plays an important role in cosmology. On the basis of the Distance Sum Rule in the Friedmann-Lemaître-Robertson-Walker metric, (distance ratio) measurements of strong gravitational lensing (SGL) systems together with distances from type Ia supernovae observations have been proposed to directly estimate the spatial curvature without any assumptions for the theories of gravity and contents of the universe. However, previous studies indicated that a spatially closed universe was strongly preferred. In this paper, we re-estimate the cosmic curvature with the latest SGL data which includes 163 well-measured systems. In addition, possible factors, e.g. combination of SGL data from different surveys and stellar mass of the lens galaxy, which might affect estimations for the spatial curvature, are considered in our analysis. We find that, except the case where only SGL systems from the Sloan Lens ACS Survey are considered, a spatially flat universe is consistently favored at very high confidence level by the latest observations. It is suggested that the increasing number of well-measured strong lensing events might significantly reduce the bias of estimation for the cosmic curvature.

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Section: Resultsmentioning

confidence: 99%

Section: Distances: D L and D Smentioning

confidence: 98%

Section: Distances: D L and D Smentioning

confidence: 99%

Section: Distances: D L and D Smentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Model-independent Estimations for the Cosmic Curvature from the Latest Strong Gravitational Lensing Systems

Zhou

2020

ApJ

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A new way to test the WIMP dark matter models

Cheng

Diao

et al. 2021

J. High Energ. Phys.

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In this paper, we investigate the possibility of testing the weakly interacting massive particle (WIMP) dark matter (DM) models by applying the simplest phenomenological model which introduces an interaction term between dark energy (DE) and WIMP DM, i.e., Q = 3γDMHρDM. In general, the coupling strength γDE is close to 0 as the interaction between DE and WIMP DM is very weak, thus the effect of γDE on the evolution of Y associated with DM energy density can be safely neglected. Meanwhile, our numerical calculation also indicates that xf ≈ 20 is associated with DM freeze-out temperature, which is the same as the vanishing interaction scenario. As for DM relic density, it will be magnified by $$ \frac{2-3{\upgamma}_{\mathrm{DM}}}{2}{\left[2\pi {g}_{\ast }{m}_{\mathrm{DM}}^3/\left(45{s}_0{x}_f^3\right)\right]}^{\gamma_{\mathrm{DM}}} $$ 2 − 3 γ DM 2 2 π g ∗ m DM 3 / 45 s 0 x f 3 γ DM times, which provides a new way to test WIMP DM models. As an example, we analyze the case in which WIMP DM is a scalar DM. (SGL+SNe+Hz) and (CMB+BAO+SNe) cosmological observations will give γDM = $$ {0.134}_{-0.069}^{+0.17} $$ 0.134 − 0.069 + 0.17 and γDM = −0.0008 ± 0.0016, respectively. After further considering the constraints from DM direct detection experiment, DM indirect detection experiment, and DM relic density, we find that the allowed parameter space of the scalar DM model will be completely excluded for the former cosmological observations, while it will increase for the latter ones. Those two cosmological observations lead to an almost paradoxical conclusion. Therefore, one could expect more stringent constraints on the WMIP DM models, with the accumulation of more accurate cosmological observations in the near future.

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What are recent observations telling us in light of improved tests of distance duality relation?

Liu

Cao

Ma³

et al. 2023

Physics Letters B

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The distance sum rule from strong lensing systems and quasars – test of cosmic curvature and beyond

Cited by 59 publications

References 66 publications

Model-independent Estimations for the Cosmic Curvature from the Latest Strong Gravitational Lensing Systems

Model-independent Estimations for the Cosmic Curvature from the Latest Strong Gravitational Lensing Systems

A new way to test the WIMP dark matter models

What are recent observations telling us in light of improved tests of distance duality relation?

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