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| Format: | Preprint |
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2026
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| Online Access: | https://arxiv.org/abs/2605.19615 |
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| _version_ | 1866914580315242496 |
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| author | Hu, Jian Liu, Yi Hu, Jian-Ping Li, Zhongmu |
| author_facet | Hu, Jian Liu, Yi Hu, Jian-Ping Li, Zhongmu |
| contents | The stellar orbital anisotropy parameter ($β_{\rm ani}$) is a persistent systematic uncertainty in galaxy-scale strong gravitational lensing (SGL) cosmology. Typically fixed to isotropy or a local prior, it frequently degenerates with the lens density profile. We demonstrate this apparent redundancy largely arises from incomplete photometric constraints. We cross-matched 130 SGL systems with the Pantheon+ SN~Ia compilation, constructing a strictly matched sample of 107 SGL-SN pairs using a 5\% comoving-distance tolerance. Assuming a flat universe ($Ω_k = 0$), the distance ratio is derived from apparent magnitude differences between paired SNe~Ia, eliminating $H_0$ and absolute magnitude dependence without fitting explicit dark-energy models. To break the kinematic degeneracy, we incorporate lens-by-lens luminosity density slopes ($δ_i$) from high-resolution imaging. Adopting the quasi-model-independent P2 redshift-evolutionary framework ($γ(z) = γ_0 + γ_z z$), we find very strong statistical evidence for a free $β_{\rm ani}$. Fixing $β_{\rm ani}$ to isotropy ($β=0$) or a local prior ($β=0.18$) is strongly disfavored ($Δ\bic = 14.2$ and $48.9$) and artificially inflates intrinsic scatter. A complementary P3 framework ($γ(z,\tildeΣ) = γ_0 + γ_z z + γ_s \log_{10}\tildeΣ$) confirms these penalties ($Δ\bic = 13.5$ and $49.1$). Across all P2 variants, we consistently detect a negative redshift evolution of the density slope ($γ_z \approx -0.42$ to $-0.46$; ${\sim}1.5{-}2.0σ$), indicating ETG density profiles become shallower at higher redshifts. We conclude that when individual photometric constraints are incorporated, $β_{\rm ani}$ is statistically required as a free parameter to prevent severe dynamical modeling biases. |
| format | Preprint |
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arxiv_https___arxiv_org_abs_2605_19615 |
| institution | arXiv |
| publishDate | 2026 |
| record_format | arxiv |
| spellingShingle | Reassessing the Statistical Necessity of Stellar Velocity Anisotropy in Strong-Lensing Cosmology with Lens-by-Lens Photometric Constraints Hu, Jian Liu, Yi Hu, Jian-Ping Li, Zhongmu Cosmology and Nongalactic Astrophysics The stellar orbital anisotropy parameter ($β_{\rm ani}$) is a persistent systematic uncertainty in galaxy-scale strong gravitational lensing (SGL) cosmology. Typically fixed to isotropy or a local prior, it frequently degenerates with the lens density profile. We demonstrate this apparent redundancy largely arises from incomplete photometric constraints. We cross-matched 130 SGL systems with the Pantheon+ SN~Ia compilation, constructing a strictly matched sample of 107 SGL-SN pairs using a 5\% comoving-distance tolerance. Assuming a flat universe ($Ω_k = 0$), the distance ratio is derived from apparent magnitude differences between paired SNe~Ia, eliminating $H_0$ and absolute magnitude dependence without fitting explicit dark-energy models. To break the kinematic degeneracy, we incorporate lens-by-lens luminosity density slopes ($δ_i$) from high-resolution imaging. Adopting the quasi-model-independent P2 redshift-evolutionary framework ($γ(z) = γ_0 + γ_z z$), we find very strong statistical evidence for a free $β_{\rm ani}$. Fixing $β_{\rm ani}$ to isotropy ($β=0$) or a local prior ($β=0.18$) is strongly disfavored ($Δ\bic = 14.2$ and $48.9$) and artificially inflates intrinsic scatter. A complementary P3 framework ($γ(z,\tildeΣ) = γ_0 + γ_z z + γ_s \log_{10}\tildeΣ$) confirms these penalties ($Δ\bic = 13.5$ and $49.1$). Across all P2 variants, we consistently detect a negative redshift evolution of the density slope ($γ_z \approx -0.42$ to $-0.46$; ${\sim}1.5{-}2.0σ$), indicating ETG density profiles become shallower at higher redshifts. We conclude that when individual photometric constraints are incorporated, $β_{\rm ani}$ is statistically required as a free parameter to prevent severe dynamical modeling biases. |
| title | Reassessing the Statistical Necessity of Stellar Velocity Anisotropy in Strong-Lensing Cosmology with Lens-by-Lens Photometric Constraints |
| topic | Cosmology and Nongalactic Astrophysics |
| url | https://arxiv.org/abs/2605.19615 |