Data di Pubblicazione:
2023
Citazione:
A persistent excess of galaxy-galaxy strong lensing observed in galaxy clusters / M. Meneghetti, W. Cui, E. Rasia, G. Yepes, A. Acebron, G. Angora, P. Bergamini, S. Borgani, F. Calura, G. Despali, C. Giocoli, G. Granata, C. Grillo, A. Knebe, A.V. Macci??, A. Mercurio, L. Moscardini, P. Natarajan, A. Ragagnin, P. Rosati, E. Vanzella. - In: ASTRONOMY & ASTROPHYSICS. - ISSN 1432-0746. - 678:(2023), pp. L2.1-L2.6. [10.1051/0004-6361/202346975]
Abstract:
Context. Previous studies have revealed that the estimated probability of galaxy-galaxy strong lensing in observed galaxy clusters exceeds the
expectations from the Λ cold dark matter cosmological model by one order of magnitude.
Aims. We aim to understand the origin of this excess by analyzing a larger set of simulated galaxy clusters, and investigating how the theoretical
expectations vary under different adopted prescriptions and numerical implementations of star formation and feedback in simulations.
Methods. We performed a ray-tracing analysis of 324 galaxy clusters from the Three Hundred project, comparing the Gadget-X and Gizmo-
Simba runs. These simulations, which start from the same initial conditions, were performed with different implementations of hydrodynamics
and galaxy formation models tailored to match different observational properties of the intracluster medium and cluster galaxies.
Results. We find that galaxies in the Gizmo-Simba simulations develop denser stellar cores than their Gadget-X counterparts. Consequently,
their probability for galaxy-galaxy strong lensing is higher by a factor of ∼3. This increment is still insufficient to fill the gap with observations as
a discrepancy by a factor ∼4 still persists. In addition, we find that several simulated galaxies have Einstein radii that are too large compared to
observations.
Conclusions. We conclude that a persistent excess of galaxy-galaxy strong lensing exists in observed galaxy clusters. The origin of this discrepancy
with theoretical predictions is still unexplained in the framework of the cosmological hydrodynamical simulations. This might signal a hitherto
unknown issue with either the simulation methods or our assumptions regarding the standard cosmological model.
Tipologia IRIS:
01 - Articolo su periodico
Keywords:
Dark matter; Galaxies: clusters: general; Gravitational lensing: strong
Elenco autori:
M. Meneghetti, W. Cui, E. Rasia, G. Yepes, A. Acebron, G. Angora, P. Bergamini, S. Borgani, F. Calura, G. Despali, C. Giocoli, G. Granata, C. Grillo, A. Knebe, A.V. Macci??, A. Mercurio, L. Moscardini, P. Natarajan, A. Ragagnin, P. Rosati, E. Vanzella
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