SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2062191691> ?p ?o ?g. }

Showing items 1 to 100 of ±130 with 100 items per page.

W2062191691 endingPage "28" @default.
W2062191691 startingPage "2" @default.
W2062191691 abstract "We apply the Delaunay Tessellation Field Estimator (DTFE) to reconstruct and analyse the matter distribution and cosmic velocity flows in the local Universe on the basis of the PSCz galaxy survey. The prime objective of this study is the production of optimal resolution 3D maps of the volume-weighted velocity and density fields throughout the nearby universe, the basis for a detailed study of the structure and dynamics of the cosmic web at each level probed by underlying galaxy sample. Fully volume-covering 3D maps of the density and (volume-weighted) velocity fields in the cosmic vicinity, out to a distance of 150 h(-1) Mpc, are presented. Based on the Voronoi and Delaunay tessellation defined by the spatial galaxy sample, DTFE involves the estimate of density values on the basis of the volume of the related Delaunay tetrahedra and the subsequent use of the Delaunay tessellation as natural multidimensional (linear) interpolation grid for the corresponding density and velocity fields throughout the sample volume. The linearized model of the spatial galaxy distribution and the corresponding peculiar velocities of the PSCz galaxy sample, produced by Branchini et al., forms the input sample for the DTFE study. The DTFE maps reproduce the high-density supercluster regions in optimal detail, both their internal structure as well as their elongated or flattened shape. The corresponding velocity flows trace the bulk and shear flows marking the region extending from the Pisces-Perseus supercluster, via the Local Superclusters, towards the Hydra-Centaurus and the Shapley concentration. The most outstanding and unique feature of the DTFE maps is the sharply defined radial outflow regions in and around underdense voids, marking the dynamical importance of voids in the local Universe. The maximum expansion rate of voids defines a sharp cut-off in the DTFE velocity divergence probability distribution function. We found that on the basis of this cut-off DTFE manages to consistently reproduce the value of Omega(m) approximate to 0.35 underlying the linearized velocity data set." @default.
W2062191691 created "2016-06-24" @default.
W2062191691 creator A5035757328 @default.
W2062191691 creator A5072908954 @default.
W2062191691 date "2007-11-21" @default.
W2062191691 modified "2023-10-09" @default.
W2062191691 title "Delaunay Tessellation Field Estimator analysis of the PSCz local Universe: density field and cosmic flow" @default.
W2062191691 cites W1607535394 @default.
W2062191691 cites W1821343735 @default.
W2062191691 cites W1967538279 @default.
W2062191691 cites W1967888351 @default.
W2062191691 cites W1975204218 @default.
W2062191691 cites W1976948252 @default.
W2062191691 cites W1978271954 @default.
W2062191691 cites W1983020550 @default.
W2062191691 cites W1983193739 @default.
W2062191691 cites W1985094595 @default.
W2062191691 cites W1987685982 @default.
W2062191691 cites W1987752809 @default.
W2062191691 cites W1997064568 @default.
W2062191691 cites W1997160350 @default.
W2062191691 cites W1999554065 @default.
W2062191691 cites W2000265182 @default.
W2062191691 cites W2003055164 @default.
W2062191691 cites W2013844845 @default.
W2062191691 cites W2018910936 @default.
W2062191691 cites W2020912455 @default.
W2062191691 cites W2022904217 @default.
W2062191691 cites W2024870709 @default.
W2062191691 cites W2024931169 @default.
W2062191691 cites W2030392256 @default.
W2062191691 cites W2042549639 @default.
W2062191691 cites W2043887696 @default.
W2062191691 cites W2044440065 @default.
W2062191691 cites W2045431816 @default.
W2062191691 cites W2047065296 @default.
W2062191691 cites W2047971856 @default.
W2062191691 cites W2049654426 @default.
W2062191691 cites W2053721956 @default.
W2062191691 cites W2053895126 @default.
W2062191691 cites W2054720694 @default.
W2062191691 cites W2062513449 @default.
W2062191691 cites W2069799925 @default.
W2062191691 cites W2072762845 @default.
W2062191691 cites W2073694913 @default.
W2062191691 cites W2079040469 @default.
W2062191691 cites W2086573197 @default.
W2062191691 cites W2109338946 @default.
W2062191691 cites W2119056544 @default.
W2062191691 cites W2124958030 @default.
W2062191691 cites W2133640570 @default.
W2062191691 cites W2149536347 @default.
W2062191691 cites W2150681584 @default.
W2062191691 cites W2158639540 @default.
W2062191691 cites W2163540027 @default.
W2062191691 cites W2164602066 @default.
W2062191691 cites W3098042124 @default.
W2062191691 cites W3099982585 @default.
W2062191691 cites W3100089536 @default.
W2062191691 cites W3101410207 @default.
W2062191691 cites W3101873755 @default.
W2062191691 cites W3102188644 @default.
W2062191691 cites W3102986122 @default.
W2062191691 cites W3105584483 @default.
W2062191691 doi "https://doi.org/10.1111/j.1365-2966.2007.12190.x" @default.
W2062191691 hasPublicationYear "2007" @default.
W2062191691 type Work @default.
W2062191691 sameAs 2062191691 @default.
W2062191691 citedByCount "27" @default.
W2062191691 countsByYear W20621916912012 @default.
W2062191691 countsByYear W20621916912013 @default.
W2062191691 countsByYear W20621916912016 @default.
W2062191691 countsByYear W20621916912017 @default.
W2062191691 countsByYear W20621916912018 @default.
W2062191691 countsByYear W20621916912019 @default.
W2062191691 countsByYear W20621916912020 @default.
W2062191691 countsByYear W20621916912023 @default.
W2062191691 crossrefType "journal-article" @default.
W2062191691 hasAuthorship W2062191691A5035757328 @default.
W2062191691 hasAuthorship W2062191691A5072908954 @default.
W2062191691 hasBestOaLocation W20621916911 @default.
W2062191691 hasConcept C105795698 @default.
W2062191691 hasConcept C121332964 @default.
W2062191691 hasConcept C1276947 @default.
W2062191691 hasConcept C185429906 @default.
W2062191691 hasConcept C202444582 @default.
W2062191691 hasConcept C2524010 @default.
W2062191691 hasConcept C33923547 @default.
W2062191691 hasConcept C43817857 @default.
W2062191691 hasConcept C44870925 @default.
W2062191691 hasConcept C59375849 @default.
W2062191691 hasConcept C68010082 @default.
W2062191691 hasConcept C84999194 @default.
W2062191691 hasConcept C9652623 @default.
W2062191691 hasConceptScore W2062191691C105795698 @default.
W2062191691 hasConceptScore W2062191691C121332964 @default.
W2062191691 hasConceptScore W2062191691C1276947 @default.
W2062191691 hasConceptScore W2062191691C185429906 @default.