Litcius/Paper detail

The universal multiplicity function: counting haloes and voids

G Verza, C. Carbone, Alice Pisani, C. Porciani, S. Matarrese

2024Journal of Cosmology and Astroparticle Physics19 citationsDOIOpen Access PDF

Abstract

Abstract We present a novel combination of the excursion-set approach with the peak theory formalism in Lagrangian space and provide accurate predictions for halo and void statistics over a wide range of scales. The set-up is based on an effective moving barrier. Besides deriving the corresponding numerical multiplicity function, we introduce a new analytical formula reaching the percent level agreement with the exact numerical solution obtained via Monte Carlo realisations down to small scales, ∼ 10 12 h -1 M ⊙ . In the void case, we derive the dependence of the effective moving barrier on the void formation threshold, δ v , by comparison against the Lagrangian void size function measured in the DEMNUni simulations. We discuss the mapping from Lagrangian to Eulerian space for both haloes and voids; adopting the spherical symmetry approximation, we obtain a strong agreement at intermediate and large scales. Finally, using the effective moving barrier, we derive Lagrangian void density profiles accurately matching measurements from cosmological simulations, a major achievement towards using void profiles for precision cosmology with the next generation of galaxy surveys.

Topics & Concepts

PhysicsMultiplicity (mathematics)Function (biology)Particle physicsStatistical physicsTheoretical physicsGeometryEvolutionary biologyBiologyMathematicsAdvanced Mathematical Theories and ApplicationsCosmology and Gravitation Theories