Prof. David Alonso

The $N_\ell$ of gravitational wave background experiments

(2020)

Authors:

David Alonso, Carlo R Contaldi, Giulia Cusin, Pedro G Ferreira, Arianna I Renzini

Detecting ultra-high energy cosmic ray anisotropies through cross-correlations

(2020)

Authors:

Federico R Urban, Stefano Camera, David Alonso

LYACOLORE: synthetic datasets for current and future Lyman-alpha forest BAO surveys

JOURNAL OF COSMOLOGY AND ASTROPARTICLE PHYSICS 2020:3 (2020) 68

Authors:

James Farr, Andreu Font-Ribera, Helion du Mas des Bourboux, Andrea Munoz-Gutierrez, F Javier Sanchez, Andrew Pontzen, Alma Xochitl Gonzalez-Morales, David Alonso, David Brooks, Peter Doel, Thomas Etourneau, Julien Guy, Jean-Marc Le Goff, Axel de la Macorra, Nathalie Palanque-Delabrouille, Ignasi Perez-Rafols, James Rich, ArCie Slosar, Gregory Tarle, Duan Yutong, Kai Zhang

Abstract:

© 2020 IOP Publishing Ltd and Sissa Medialab. The statistical power of Lyman-α forest Baryon Acoustic Oscillation (BAO) measurements is set to increase significantly in the coming years as new instruments such as the Dark Energy Spectroscopic Instrument deliver progressively more constraining data. Generating mock datasets for such measurements will be important for validating analysis pipelines and evaluating the effects of systematics. With such studies in mind, we present LyaCoLoRe: A package for producing synthetic Lyman-α forest survey datasets for BAO analyses. LyaCoLoRe transforms initial Gaussian random field skewers into skewers of transmitted flux fraction via a number of fast approximations. In this work we explain the methods of producing mock datasets used in LyaCoLoRe, and then measure correlation functions on a suite of realisations of such data. We demonstrate that we are able to recover the correct BAO signal, as well as large-scale bias parameters similar to literature values. Finally, we briefly describe methods to add further astrophysical effects to our skewers-high column density systems and metal absorbers-which act as potential complications for BAO analyses.

Cosmology with Phase 1 of the Square Kilometre Array Red Book 2018: technical specifications and performance forecasts

Publications of the Astronomical Society of Australia Cambridge University Press 37 (2020) e007

Authors:

David J Bacon, Richard A Battye, Philip Bull, Stefano Camera, Pedro Ferreira, Ian Harrison, David Parkinson, Alkistis Pourtsidou, Mario G Santos, Laura Wolz, Filipe Abdalla, Yashar Akrami, David Alonso, Sambatra Andrianomena, Mario Ballardini, Jose Luis Bernal, Daniele Bertacca, Carlos AP Bengaly, Anna Bonaldi, Camille Bonvin, Michael L Brown, Emma Chapman, Song Chen, Xuelei Chen, Steven Cunnington, Tamara M Davis, Clive Dickinson, Jose Fonseca, Keith Grainge, Stuart Harper, Matthew Jarvis, Roy Maartens, Natasha Maddox, Hamsa Padmanabhan, Jonathan R Pritchard, Alvise Raccanelli, Marzia Rivi, Sambit Roychowdhury, Martin Sahlen, Dominik J Schwarz, Thilo M Siewert, Matteo Viel, Francisco Villaescusa-Navarro, Yidong Xu, Daisuke Yamauchi, Joe Zuntz, Square Kilometre Array Cosmology Science Working Group

Abstract:

We present a detailed overview of the cosmological surveys that we aim to carry out with Phase 1 of the Square Kilometre Array (SKA1) and the science that they will enable. We highlight three main surveys: a medium-deep continuum weak lensing and low-redshift spectroscopic HI galaxy survey over 5 000 deg2; a wide and deep continuum galaxy and HI intensity mapping (IM) survey over 20 000 deg2 from z = 0.35 to 3; and a deep, high-redshift HI IM survey over 100 deg2 from z = 3 to 6. Taken together, these surveys will achieve an array of important scientific goals: measuring the equation of state of dark energy out to z ~ 3 with percent-level precision measurements of the cosmic expansion rate; constraining possible deviations from General Relativity on cosmological scales by measuring the growth rate of structure through multiple independent methods; mapping the structure of the Universe on the largest accessible scales, thus constraining fundamental properties such as isotropy, homogeneity, and non-Gaussianity; and measuring the HI density and bias out to z = 6. These surveys will also provide highly complementary clustering and weak lensing measurements that have independent systematic uncertainties to those of optical and near-infrared (NIR) surveys like Euclid, LSST, and WFIRST leading to a multitude of synergies that can improve constraints significantly beyond what optical or radio surveys can achieve on their own. This document, the 2018 Red Book, provides reference technical specifications, cosmological parameter forecasts, and an overview of relevant systematic effects for the three key surveys and will be regularly updated by the Cosmology Science Working Group in the run up to start of operations and the Key Science Programme of SKA1.

The cross correlation of the ABS and ACT maps

(2020)

Authors:

Zack Li, Sigurd Naess, Simone Aiola, David Alonso, John W Appel, J Richard Bond, Erminia Calabrese, Steve K Choi, Kevin T Crowley, Thomas Essinger-Hileman, Shannon M Duff, Joanna Dunkley, JW Fowler, Patricio Gallardo, Shuay-Pwu Patty Ho, Johannes Hubmayr, Akito Kusaka, Thibaut Louis, Mathew S Madhavacheril, Jeffrey McMahon, Federico Nati, Michael D Niemack, Lyman Page, Lucas Parker, Bruce Partridge, Maria Salatino, Jonathan L Sievers, Cristóbal Sifón, Sara M Simon, Suzanne T Staggs, Emilie Storer, Edward J Wollack