Dark Energy Spectroscopic Instrument (DESI) will construct a large and precise three-dimensional map of our Universe. The survey effective volume reaches similar to 20 h(-3) Gpc(3). It is a great challenge to prepare high-resolution simulations with a much larger volume for validating the DESI analysis pipelines. ABACUSSUMMIT is a suite of high-resolution dark-matter-only simulations designed for this purpose, with 200 h(-3) Gpc(3) (10 times DESI volume) for the base cosmology. However, further efforts need to be done to provide a more precise analysis of the data and to cover also other cosmologies. Recently, the CARPool method was proposed to use paired accurate and approximate simulations to achieve high statistical precision with a limi...
This paper presents the generation of a suit of mock catalogs of dark matter halos and galaxies, aim...
Shortly after its discovery, General Relativity (GR) was applied to predict the behavior of our Univ...
Shortly after its discovery, General Relativity (GR) was applied to predict the behavior of our Univ...
Dark Energy Spectroscopic Instrument (DESI) will construct a large and precise three-dimensional map...
International audienceDark Energy Spectroscopic Instrument (DESI) will construct a large and precise...
Dark Energy Spectroscopic Instrument (DESI) will construct a large and precise three-dimensional map...
Analysis of large galaxy surveys requires confidence in the robustness of numerical simulation metho...
Analysis of large galaxy surveys requires confidence in the robustness of numerical simulation metho...
Supplementary material to DESI's publication "The DESI N-body Simulation Project II: Suppressing Sam...
International audienceIn order to address fundamental questions related to the expansion history of ...
We present the UNIT N-body cosmological simulations project, designed to provide precise predictions...
The Dark Sky Simulations are an ongoing series of cosmological N-body simulations designed to provid...
The Dark Energy Spectroscopic Instrument (DESI) will soon start to obtain optical spectra for tens o...
This paper presents the generation of a suit of mock catalogs of dark matter halos and galaxies, aim...
Shortly after its discovery, General Relativity (GR) was applied to predict the behavior of our Univ...
Shortly after its discovery, General Relativity (GR) was applied to predict the behavior of our Univ...
Dark Energy Spectroscopic Instrument (DESI) will construct a large and precise three-dimensional map...
International audienceDark Energy Spectroscopic Instrument (DESI) will construct a large and precise...
Dark Energy Spectroscopic Instrument (DESI) will construct a large and precise three-dimensional map...
Analysis of large galaxy surveys requires confidence in the robustness of numerical simulation metho...
Analysis of large galaxy surveys requires confidence in the robustness of numerical simulation metho...
Supplementary material to DESI's publication "The DESI N-body Simulation Project II: Suppressing Sam...
International audienceIn order to address fundamental questions related to the expansion history of ...
We present the UNIT N-body cosmological simulations project, designed to provide precise predictions...
The Dark Sky Simulations are an ongoing series of cosmological N-body simulations designed to provid...
The Dark Energy Spectroscopic Instrument (DESI) will soon start to obtain optical spectra for tens o...
This paper presents the generation of a suit of mock catalogs of dark matter halos and galaxies, aim...
Shortly after its discovery, General Relativity (GR) was applied to predict the behavior of our Univ...
Shortly after its discovery, General Relativity (GR) was applied to predict the behavior of our Univ...