Prof. David Alonso

An Accuracy-Aware Implementation of Two-Point Three-Dimensional Correlation Function Using Bin-Recycling Strategy on GPU

Institute of Electrical and Electronics Engineers (IEEE) (2017) 913-920

Authors:

Iván Méndez-Jiménez, Miguel Cárdenas-Montes, Juan José Rodríguez-Vázquez, Ignacio Sevilla-Noarbe, Eusebio Sánchez Álvaro, David Alonso, Miguel A Vega-Rodríguez

Calibrating photometric redshifts with intensity mapping observations

(2017)

Authors:

David Alonso, Pedro G Ferreira, Matt J Jarvis, Kavilan Moodley

Observational future of cosmological scalar-tensor theories

PHYSICAL REVIEW D 95:6 (2017) ARTN 063502

Authors:

D Alonso, E Bellini, PG Ferreira, M Zumalacarregui

Complementing the ground-based CMB-S4 experiment on large scales with the PIXIE satellite

Physical Review D American Physical Society 95 (2017) 063504

Authors:

Ermina Calabrese, David Alonso, Jo Dunkley

Abstract:

We present forecasts for cosmological parameters from future cosmic microwave background (CMB) data measured by the stage-4 (S4) generation of ground-based experiments in combination with large-scale anisotropy data from the PIXIE satellite. We demonstrate the complementarity of the two experiments and focus on science targets that benefit from their combination. We show that a cosmic-variance-limited measurement of the optical depth to reionization provided by PIXIE, with error σ(τ) = 0.002, is vital for enabling a 5σ detection of the sum of the neutrino masses when combined with a CMB-S4 lensing measurement and with lower-redshift constraints on the growth of structure and the distance-redshift relation. Parameters characterizing the epoch of reionization will also be tightly constrained; PIXIE’s τ constraint converts into σ(zre) = 0.2 for the mean time of reionization, and a kinematic Sunyaev-Zel’dovich measurement from S4 gives σ(Δzre) = 0.03 for the duration of reionization. Both PIXIE and S4 will put strong constraints on primordial tensor fluctuations, vital for testing early-Universe models, and will do so at distinct angular scales. We forecast σ(r) ≈ 5 × 10^−4 for a signal with a tensor-to-scalar ratio r = 10^−3, after accounting for diffuse foreground removal and delensing. The wide and dense frequency coverage of PIXIE results in an expected foreground-degradation factor on r of only ≈25%. By measuring large and small scales PIXIE and S4 will together better limit the energy injection at recombination from dark matter annihilation, with pann < 0.09 × 10^−6 m3/s/kg projected at 95% confidence. Cosmological parameters measured from the damping tail with S4 will be best constrained by polarization, which has the advantage of minimal contamination from extragalactic emission.

The f(ℛ) halo mass function in the cosmic web

Journal of Cosmology and Astroparticle Physics Institute of Physics 2017:03 (2017) 012

Authors:

Francesca V Braun-Bates, Hans A Winther, David Alonso, Julien Devriendt

Abstract:

An important indicator of modified gravity is the effect of the local environment on halo properties. This paper examines the influence of the local tidal structure on the halo mass function, the halo orientation, spin and the concentration-mass relation. We use the excursion set formalism to produce a halo mass function conditional on large-scale structure. Our simple model agrees well with simulations on large scales at which the density field is linear or weakly non-linear. Beyond this, our principal result is that f() does affect halo abundances, the halo spin parameter and the concentration-mass relationship in an environment-independent way, whereas we find no appreciable deviation from \text{ΛCDM} for the mass function with fixed environment density, nor the alignment of the orientation and spin vectors of the halo to the eigenvectors of the local cosmic web. There is a general trend for greater deviation from \text{ΛCDM} in underdense environments and for high-mass haloes, as expected from chameleon screening.