Context. High-z submillimetre galaxies can be used as a background sample for gravitational lensing studies thanks to their magnification bias. In particular, the magnification bias can be exploited in order to constrain the free parameters of a halo occupation distribution (HOD) model and some of the main cosmological parameters. A pseudo-tomographic analysis shows that the tomographic approach should improve the parameter estimation.Aims. In this work the magnification bias has been evaluated as cosmological tool in a tomographic set-up. The cross-correlation function (CCF) data have been used to jointly constrain the astrophysical parameters M-min, M-1, and alpha in each of the selected redshift bins as well as the cosmological parameters Omega(M), sigma(8), and H-0 for the lambda cold dark matter (Lambda CDM) model. Moreover, we explore the possible time evolution of the dark energy density by also introducing the omega(0), omega(a) parameters in the joint analysis (omega 0CDM and omega(0)omega aCDM).Methods. The CCF was measured between a foreground spectroscopic sample of Galaxy And Mass Assembly galaxies and a background sample of Herschel Astrophysical Terahertz Large Area Survey (H-ATLAS) galaxies. The foreground sample was divided into four redshift bins (0.1-0.2, 0.2-0.3, 0.3-0.5, and 0.5-0.8) and the sample of H-ATLAS galaxies has photometric redshifts > 1.2. The CCF was modelled using a halo model description that depends on HOD and cosmological parameters. Then a Markov chain Monte Carlo method was used to estimate the parameters for different cases.Results. For the Lambda CDM model the analysis yields a maximum posterior value at 0.26 with [0.17, 0.41] 68% C.I. for Omega(M) and at 0.87 with [0.75, 1] 68% C.I. for sigma(8). With our current results H-0 is not yet constrained. With a more general omega 0CDM model, the constraints on Omega(M) and sigma(8) are similar, but we found a maximum posterior value for omega(0) at -1 with [-1.56, -0.47] 68% C.I. In the omega(0)omega aCDM model, the results are -1.09 with [-1.72, -0.66] 68% C.I. for omega(0) and -0.19 with [-1.88, 1.48] 68% C.I. for omega(a).Conclusions. The results on M-min show a trend towards higher values at higher redshift confirming recent findings. The tomographic analysis presented in this work improves the constraints in the sigma(8) - Omega(M) plane with respect to previous findings exploiting the magnification bias and it confirms that magnification bias results do not show the degeneracy found with cosmic shear measurements. Moreover, related to dark energy, we found a trend of higher omega(0) values for lower H-0 values.

Bonavera, L., Cueli, M., González-Nuevo, J., Ronconi, T., Migliaccio, M., Lapi, A., et al. (2021). Cosmology with the submillimetre galaxies magnification bias : Tomographic analysis. ASTRONOMY & ASTROPHYSICS, 656 [10.1051/0004-6361/202141521].

Cosmology with the submillimetre galaxies magnification bias : Tomographic analysis

Migliaccio, M;
2021-01-01

Abstract

Context. High-z submillimetre galaxies can be used as a background sample for gravitational lensing studies thanks to their magnification bias. In particular, the magnification bias can be exploited in order to constrain the free parameters of a halo occupation distribution (HOD) model and some of the main cosmological parameters. A pseudo-tomographic analysis shows that the tomographic approach should improve the parameter estimation.Aims. In this work the magnification bias has been evaluated as cosmological tool in a tomographic set-up. The cross-correlation function (CCF) data have been used to jointly constrain the astrophysical parameters M-min, M-1, and alpha in each of the selected redshift bins as well as the cosmological parameters Omega(M), sigma(8), and H-0 for the lambda cold dark matter (Lambda CDM) model. Moreover, we explore the possible time evolution of the dark energy density by also introducing the omega(0), omega(a) parameters in the joint analysis (omega 0CDM and omega(0)omega aCDM).Methods. The CCF was measured between a foreground spectroscopic sample of Galaxy And Mass Assembly galaxies and a background sample of Herschel Astrophysical Terahertz Large Area Survey (H-ATLAS) galaxies. The foreground sample was divided into four redshift bins (0.1-0.2, 0.2-0.3, 0.3-0.5, and 0.5-0.8) and the sample of H-ATLAS galaxies has photometric redshifts > 1.2. The CCF was modelled using a halo model description that depends on HOD and cosmological parameters. Then a Markov chain Monte Carlo method was used to estimate the parameters for different cases.Results. For the Lambda CDM model the analysis yields a maximum posterior value at 0.26 with [0.17, 0.41] 68% C.I. for Omega(M) and at 0.87 with [0.75, 1] 68% C.I. for sigma(8). With our current results H-0 is not yet constrained. With a more general omega 0CDM model, the constraints on Omega(M) and sigma(8) are similar, but we found a maximum posterior value for omega(0) at -1 with [-1.56, -0.47] 68% C.I. In the omega(0)omega aCDM model, the results are -1.09 with [-1.72, -0.66] 68% C.I. for omega(0) and -0.19 with [-1.88, 1.48] 68% C.I. for omega(a).Conclusions. The results on M-min show a trend towards higher values at higher redshift confirming recent findings. The tomographic analysis presented in this work improves the constraints in the sigma(8) - Omega(M) plane with respect to previous findings exploiting the magnification bias and it confirms that magnification bias results do not show the degeneracy found with cosmic shear measurements. Moreover, related to dark energy, we found a trend of higher omega(0) values for lower H-0 values.
2021
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore FIS/05
English
Con Impact Factor ISI
cosmological parameters
dark energy
gravitational lensing: weak
galaxies: high-redshift
submillimeter: galaxies
Bonavera, L., Cueli, M., González-Nuevo, J., Ronconi, T., Migliaccio, M., Lapi, A., et al. (2021). Cosmology with the submillimetre galaxies magnification bias : Tomographic analysis. ASTRONOMY & ASTROPHYSICS, 656 [10.1051/0004-6361/202141521].
Bonavera, L; Cueli, M; González-Nuevo, J; Ronconi, T; Migliaccio, M; Lapi, A; Casas, J; Crespo, D
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/348787
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