Beecroft Institute for Particle Astrophysics and Cosmology

Measurement of the power spectrum turnover scale from the cross-correlation between CMB lensing and Quaia

(2024)

Authors:

David Alonso, Oleksandr Hetmantsev, Giulio Fabbian, Anze Slosar, Kate Storey-Fisher

Euclid preparation

Astronomy & Astrophysics EDP Sciences 691 (2024) ARTN A62

Authors:

T Castro, A Fumagalli, Re Angulo, S Bocquet, S Borgani, M Costanzi, J Dakin, K Dolag, P Monaco, A Saro, E Sefusatti, N Aghanim, L Amendola, S Andreon, C Baccigalupi, M Baldi, C Bodendorf, D Bonino, E Branchini, M Brescia, A Caillat, S Camera, V Capobianco, C Carbone, J Carretero, S Casas, M Castellano, G Castignani, S Cavuoti, A Cimatti, C Colodro-Conde, G Congedo, Cj Conselice, L Conversi, Y Copin, A Costille, F Courbin, Hm Courtois, A Da Silva, H Degaudenzi, G De Lucia, Am Di Giorgio, M Douspis, X Dupac, S Dusini, M Farina, S Farrens, S Ferriol, P Fosalba, M Frailis

Abstract:

The Euclid mission, designed to map the geometry of the dark Universe, presents an unprecedented opportunity for advancing our understanding of the cosmos through its photometric galaxy cluster survey. Central to this endeavor is the accurate calibration of the mass- and redshift-dependent halo bias (HB), which is the focus of this paper. Our aim is to enhance the precision of HB predictions, which is crucial for deriving cosmological constraints from the clustering of galaxy clusters. Our study is based on the peak-background split (PBS) model linked to the halo mass function (HMF), and it extends it with a parametric correction to precisely align with results from an extended set of N-body simulations carried out with the OpenGADGET3 code. Employing simulations with fixed and paired initial conditions, we meticulously analyzed the matter-halo cross-spectrum and modeled its covariance using a large number of mock catalogs generated with Lagrangian perturbation theory simulations with the PINOCCHIO code. This ensures a comprehensive understanding of the uncertainties in our HB calibration. Our findings indicate that the calibrated HB model is remarkably resilient against changes in cosmological parameters, including those involving massive neutrinos. The robustness and adaptability of our calibrated HB model provide an important contribution to the cosmological exploitation of the cluster surveys to be provided by the Euclid mission. This study highlights the necessity of continuously refining the calibration of cosmological tools such as the HB to match the advancing quality of observational data. As we project the impact of our calibrated model on cosmological constraints, we find that given the sensitivity of the Euclid survey, a miscalibration of the HB could introduce biases in cluster cosmology analysis. Our work fills this critical gap, ensuring the HB calibration matches the expected precision of the Euclid survey.

syren-new: Precise formulae for the linear and nonlinear matter power spectra with massive neutrinos and dynamical dark energy

(2024)

Authors:

Ce Sui, Deaglan J Bartlett, Shivam Pandey, Harry Desmond, Pedro G Ferreira, Benjamin D Wandelt

Evaluating the variance of individual halo properties in constrained cosmological simulations

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 534:4 (2024) 3120-3132

Authors:

Richard Stiskalek, Harry Desmond, Julien Devriendt, Adrianne Slyz

Scant evidence for thawing quintessence

Physical Review D American Physical Society (APS) 110:8 (2024) 083528

Authors:

William J Wolf, Carlos García-García, Deaglan J Bartlett, Pedro G Ferreira