Prof. David Alonso

Halo abundances and shear in void models

(2012)

Authors:

David Alonso, Juan García-Bellido, Troels Haugboelle, Alexander Knebe

Tracing the sound horizon scale with photometric redshift surveys

Monthly Notices of the Royal Astronomical Society Oxford University Press 411:1 (2011) 277-288

Authors:

E Sánchez, A Carnero, J García-Bellido, E Gaztañaga, F De Simoni, M Crocce, A Cabré, P Fosalba, David Alonso

Abstract:

We propose a new method for the extraction cosmological parameters using the baryon acoustic oscillation (BAO) scale as a standard ruler in deep galaxy surveys with photometric determination of redshifts. The method consists in a simple empirical parametric fit to the angular two-point correlation function ω(θ). It is parametrized as a power law to describe the continuum and as a Gaussian to describe the BAO bump. The location of the Gaussian is used as the basis for the measurement of the sound horizon scale. This method, although simple, actually provides a robust estimation, since the inclusion of the power law and the use of the Gaussian remove the shifts which affect the local maximum. We discuss the effects of projection bias, non-linearities, redshift space distortions and photo-z precision and apply our method to a mock catalogue of the Dark Energy Survey, built upon a large N-body simulation provided by the MICE collaboration. We discuss the main systematic errors associated with our method and show that they are dominated by the photo-z uncertainty.

Large scale structure simulations of inhomogeneous Lemaître-Tolman-Bondi void models

Physical Review D American Physical Society 82:12 (2010) ARTN: 123530

Authors:

David Alonso, J García-Bellido, T Haugbølle, J Vicente

Abstract:

We perform numerical simulations of large scale structure evolution in an inhomogeneous Lemaître-Tolman-Bondi (LTB) model of the Universe. We follow the gravitational collapse of a large underdense region (a void) in an otherwise flat matter-dominated Einstein–de Sitter model. We observe how the (background) density contrast at the center of the void grows to be of order one, and show that the density and velocity profiles follow the exact nonlinear LTB solution to the full Einstein equations for all but the most extreme voids. This result seems to contradict previous claims that fully relativistic codes are needed to properly handle the nonlinear evolution of large scale structures, and that local Newtonian dynamics with an explicit expansion term is not adequate. We also find that the (local) matter density contrast grows with the scale factor in a way analogous to that of an open universe with a value of the matter density Ω M ( r ) corresponding to the appropriate location within the void.

Large scale structure simulations of inhomogeneous LTB void models

(2010)

Authors:

David Alonso, Juan Garcia-Bellido, Troels Haugboelle, Julian Vicente

Tracing the sound horizon scale with photometric redshift surveys

Proceedings of the 9th Scientific Meeting of the Spanish Astronomical Society - Highlights of Spanish Astrophysics VI, SEA 2010 (2010) 703-708

Authors:

A Carnero-Rosell, E Sánchez, J García-Bellido, E Gaztañaga, F de Simoni, M Crocce, A Cabré, P Fosalba, D Alonso

Abstract:

We propose a novel method for the extraction of the baryonic acoustic oscillation scale in galaxy photometric surveys. The evolution of this scale can be used as a standard ruler in order to constrain cosmological parameters. The method consists in parametrize the angular correlation function ω(θ), with a simple analitical expresion, in order to extract the sound horizon scale. The method has been tested in the MICE simulation, one of the largest N-body simulation to date. We have considered projection effects, non-linearities and observational effects in our analysis, obtaining errors in cosmological parameters in agreement with what is expected in new generation surveys.