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DIVE in the cosmic web: voids with Delaunay Triangulation from discrete matter tracer distributions

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arxiv 1511.04299 v1 pith:H5MZ25J3 submitted 2015-11-13 astro-ph.CO

DIVE in the cosmic web: voids with Delaunay Triangulation from discrete matter tracer distributions

classification astro-ph.CO
keywords voidsdensitydelaunaydifferenttracerstriangulationbiasdiscrete
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We present a novel parameter-free cosmological void finder (\textsc{dive}, Delaunay TrIangulation Void findEr) based on Delaunay Triangulation (DT), which efficiently computes the empty spheres constrained by a discrete set of tracers. We define the spheres as DT voids, and describe their properties, including an universal density profile together with an intrinsic scatter. We apply this technique on 100 halo catalogues with volumes of 2.5\,$h^{-1}$Gpc side each, with a bias and number density similar to the BOSS CMASS Luminous Red Galaxies, performed with the \textsc{patchy} code. Our results show that there are two main species of DT voids, which can be characterised by the radius: they have different responses to halo redshift space distortions, to number density of tracers, and reside in different dark matter environments. Based on dynamical arguments using the tidal field tensor, we demonstrate that large DT voids are hosted in expanding regions, whereas the haloes used to construct them reside in collapsing ones. Our approach is therefore able to efficiently determine the troughs of the density field from galaxy surveys, and can be used to study their clustering. We further study the power spectra of DT voids, and find that the bias of the two populations are different, demonstrating that the small DT voids are essentially tracers of groups of haloes.

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Cited by 2 Pith papers

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  2. Constraining Neutrino Mass with the Void Weak Lensing Effect

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    Simulations of void-shear cross-correlation demonstrate that void lensing can constrain total neutrino mass to σ(M_ν)=0.096 eV without shape noise and 0.340 eV with Stage-III-like noise.