International audienceNumerical simulations and observations show that galaxies are not uniformly distributed in the universe but, rather, they are spread across a filamentary structure. In this large-scale pattern, highly dense regions are linked together by bridges and walls, all of them surrounded by vast, nearly-empty areas. While nodes of the network are widely studied in the literature, simulations indicate that half of the mass budget comes from a more diffuse part of the network, which is made up of filaments. In the context of recent and upcoming large galaxy surveys, it becomes essential that we identify and classify features of the Cosmic Web in an automatic way in order to study their physical properties and the impact of the co...
The detection and characterization of filamentary structures in the cosmic web allows cosmologists t...
International audienceContext. Galaxy filaments are the dominant feature in the overall structure of...
Upcoming wide-field surveys are well suited to studying the growth of galaxy clusters by tracing gal...
International audienceNumerical simulations and observations show that galaxies are not uniformly di...
International audienceThe main feature of the spatial large-scale galaxy distribution is its intrica...
Context. The main feature of the spatial large-scale galaxy distribution is an intricate network of ...
The late-time matter distribution depicts a complex pattern commonly called the cosmic web. In this ...
Upcoming wide-field surveys are well-suited to studying the growth of galaxy clusters by tracing gal...
Context. Characterization of the internal structure of the superclusters of galaxies (walls, filamen...
We present a new method to identify large-scale filaments and apply it to a cosmological simulation....
Context. Galaxies in the Universe form chains (filaments) that connect groups and clusters of galaxi...
We present a statistical study of the filamentary structures of the cosmic web in the large hydro-dy...
We present a novel method for identifying cosmic web filaments using the IllustrisTNG (TNG100) cosmo...
The detection and characterization of filamentary structures in the cosmic web allows cosmologists t...
International audienceContext. Galaxy filaments are the dominant feature in the overall structure of...
Upcoming wide-field surveys are well suited to studying the growth of galaxy clusters by tracing gal...
International audienceNumerical simulations and observations show that galaxies are not uniformly di...
International audienceThe main feature of the spatial large-scale galaxy distribution is its intrica...
Context. The main feature of the spatial large-scale galaxy distribution is an intricate network of ...
The late-time matter distribution depicts a complex pattern commonly called the cosmic web. In this ...
Upcoming wide-field surveys are well-suited to studying the growth of galaxy clusters by tracing gal...
Context. Characterization of the internal structure of the superclusters of galaxies (walls, filamen...
We present a new method to identify large-scale filaments and apply it to a cosmological simulation....
Context. Galaxies in the Universe form chains (filaments) that connect groups and clusters of galaxi...
We present a statistical study of the filamentary structures of the cosmic web in the large hydro-dy...
We present a novel method for identifying cosmic web filaments using the IllustrisTNG (TNG100) cosmo...
The detection and characterization of filamentary structures in the cosmic web allows cosmologists t...
International audienceContext. Galaxy filaments are the dominant feature in the overall structure of...
Upcoming wide-field surveys are well suited to studying the growth of galaxy clusters by tracing gal...