Prof. David Alonso

Fast simulations for intensity mapping experiments

Monthly Notices of the Royal Astronomical Society Oxford University Press 444:4 (2014) 3183-3197

Authors:

David Alonso, Pedro Ferreira, MG Santos

Abstract:

We present a code to generate mock observations of 21 cm intensity mapping experiments. The emphasis of the code is on reducing the computational cost of running a full-blown simulation, trading computational time for accuracy. The code can be used to generate independent realizations of the cosmological signal and foregrounds, which are necessary, for instance, in order to obtain realistic forecasts for future intensity mapping experiments. The code is able to reproduce the correct angular and radial clustering pattern for the cosmological signal, including redshift-space distortions, lightcone evolution and bias. Furthermore, it is possible to simulate a variety of foregrounds, including the potentially problematic polarized synchrotron emission.

Halo abundances within the cosmic web

(2014)

Authors:

David Alonso, Elizabeth Eardley, John A Peacock

Fast simulations for intensity mapping experiments

(2014)

Authors:

David Alonso, Pedro G Ferreira, Mario G Santos

21cm Cosmology

Proceedings of the International Astronomical Union Cambridge University Press (CUP) 10:S306 (2014) 165-176

Authors:

Mario G Santos, David Alonso, Philip Bull, Stefano Camera, Pedro G Ferreira

Measuring the transition to homogeneity with photometric redshift surveys

Monthly Notices of the Royal Astronomical Society Oxford University Press 440:1 (2014) 10-23

Authors:

David Alonso, A Bueno Belloso, FJ Sanchez, J Garcia-Bellido, E Sanchez

Abstract:

We study the possibility of detecting the transition to homogeneity using photometric redshift catalogues. Our method is based on measuring the fractality of the projected galaxy distribution, using angular distances, and relies only on observable quantities. It thus provides a way to test the cosmological principle in a model-independent unbiased way. We have tested our method on different synthetic inhomogeneous catalogues and shown that it is capable of discriminating some fractal models with relatively large fractal dimensions, in spite of the loss of information due to the radial projection. We have also studied the influence of the redshift bin width, photometric redshift errors, bias, non-linear clustering, and surveyed area on the angular homogeneity index H2(θ) in a Λ cold dark matter cosmology. The level to which an upcoming galaxy survey will be able to constrain the transition to homogeneity will depend mainly on the total surveyed area and the compactness of the surveyed region. In particular, a Dark Energy Survey (DES)-like survey should be able to easily discriminate certain fractal models with fractal dimensions as large as D2 = 2.95. We believe that this method will have relevant applications for upcoming large photometric redshift surveys, such as DES or the Large Synoptic Survey Telescope.