Add to ORKGUsing a new parallel algorithm implemented within the VisIt framework, we analysed large cosmological grid simulations to study the properties of baryons in filaments. The procedure allows us to build large catalogues with up to∼3×104 filaments per simulated volume and to investigate the properties of cosmic filaments for very large volumes at high resolution (up to 3003 Mpc3 simulated with 20483 cells). We determined scaling relations for the mass, volume, length and temperature of filaments and compared them to those of galaxy clusters. The longest filaments have a total length of about 200 Mpc with a mass of several 1015 M⊙. We also investigated the effects of different gas physics. Radiative cooling significantly modifies the thermal pr...
We present a comprehensive study of the distribution of matter around different populations of large...
We use a high-resolution zoom-in hydrodynamical simulation to investigate the impact of filaments on...
We present a novel method for identifying cosmic web filaments using the IllustrisTNG (TNG100) cosmo...
none4Using a new parallel algorithm implemented within the VisIt framework, we analysed large cosmol...
Using cosmological simulations of galaxy cluster regions from THE THREE HUNDRED project we study the...
open2siIn this paper, we exploit a large suite of ENZO cosmological magneto-hydrodynamical simula- t...
Using cosmological simulations of galaxy cluster regions from The Three Hundred project we study the...
We report on the possibility of studying the proprieties of cosmic diffuse baryons by studying self-...
Matter in the Universe is assembled under the action of gravity to form a gigantic network of nodes,...
Despite containing about a half of the total matter in the Universe, at most wavelengths the filamen...
International audienceWe present the study of gas phases around cosmic-web filaments detected in the...
We present the study of gas phases around cosmic-web filaments detected in the TNG300-1 hydro-dynami...
International audienceWe studied physical properties of matter in 24 544 filaments ranging from 30 t...
Upcoming wide-field surveys are well-suited to studying the growth of galaxy clusters by tracing gal...
We analyse the IllustrisTNG simulations to study the mass, volume fraction, and phase distribution o...
We present a comprehensive study of the distribution of matter around different populations of large...
We use a high-resolution zoom-in hydrodynamical simulation to investigate the impact of filaments on...
We present a novel method for identifying cosmic web filaments using the IllustrisTNG (TNG100) cosmo...
none4Using a new parallel algorithm implemented within the VisIt framework, we analysed large cosmol...
Using cosmological simulations of galaxy cluster regions from THE THREE HUNDRED project we study the...
open2siIn this paper, we exploit a large suite of ENZO cosmological magneto-hydrodynamical simula- t...
Using cosmological simulations of galaxy cluster regions from The Three Hundred project we study the...
We report on the possibility of studying the proprieties of cosmic diffuse baryons by studying self-...
Matter in the Universe is assembled under the action of gravity to form a gigantic network of nodes,...
Despite containing about a half of the total matter in the Universe, at most wavelengths the filamen...
International audienceWe present the study of gas phases around cosmic-web filaments detected in the...
We present the study of gas phases around cosmic-web filaments detected in the TNG300-1 hydro-dynami...
International audienceWe studied physical properties of matter in 24 544 filaments ranging from 30 t...
Upcoming wide-field surveys are well-suited to studying the growth of galaxy clusters by tracing gal...
We analyse the IllustrisTNG simulations to study the mass, volume fraction, and phase distribution o...
We present a comprehensive study of the distribution of matter around different populations of large...
We use a high-resolution zoom-in hydrodynamical simulation to investigate the impact of filaments on...
We present a novel method for identifying cosmic web filaments using the IllustrisTNG (TNG100) cosmo...