The e-MANTIS emulator: fast and accurate predictions of the halo mass function in f(R)CDM and wCDM cosmologies
Abstract
In this work, we present a novel emulator of the halo mass function, which we implement in the framework of the e-mantis emulator of f(R) gravity models. We also extend e-mantis to cover a larger cosmological parameter space and to include models of dark energy with a constant equation of state wCDM. We use a Latin hypercube sampling of the wCDM and f(R)CDM cosmological parameter spaces, over a wide range, and realize a large suite of more than 10000 N-body simulations of different volume, mass resolution and random phase of the initial conditions. For each simulation in the suite, we generate halo catalogues using the friends-of-friends halo finder, as well as the spherical overdensity algorithm for different overdensity thresholds. We decompose the corresponding halo mass functions on a B-spline basis, and use this decomposition to train an emulator based on Gaussian processes. The resulting emulator is able to predict the halo mass function for redshifts ≤ 1.5 and for halo masses Mh≥1013\,h-1M. The typical HMF errors for SO haloes with =200c at z=0 in wCDM (respectively f(R)CDM) are of order of ε01.5\% (ε04\%) up to a transition mass Mt2·1014\,h-1M (Mt6·1013\,h-1M). For larger masses, the errors are dominated by shot-noise and scale as ε0·(Mh/Mt)α with α0.9 (α0.4) up to Mh 1015\,h-1M. Independently of this general trend, the emulator is able to provide an estimation of its own error as a function of the cosmological parameters, halo mass, and redshift. The e-mantis emulator, which is publicly available, can be used to obtain fast and accurate predictions of the halo mass function in the f(R)CDM and wCDM non-standard cosmological models.
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