Add to ORKGWe study the evolution of angular momenta of (M ∗ = 1010−1012 M) galaxies utilizing large-scale ultra-high resolution cosmological hydrodynamic simulations and find that spin of the stellar component changes direction frequently, caused by major mergers, minor mergers, significant gas inflows and torques by nearby systems. The rate and nature of change of spin direction can not be accounted for by large-scale tidal torques, because the latter fall short in rates by orders of magnitude and because the apparent random swings of the spin direction are inconsistent with alignment by linear density field. The implications for galaxy formation as well as intrinsic alignment of galaxies are profound. Assuming the large-scale tidal field is the so...
We use a 380-h−1 pc resolution hydrodynamic adaptive mesh refinement (AMR) simulation of a cosmic fi...
We investigate the alignment of the spin of dark matter halos relative (i) to the surrounding large-...
The intrinsic alignment of galaxy shapes (by means of their angular momentum) and their cross-correl...
A large-scale hydrodynamical cosmological simulation, Horizon-AGN, is used to investigate the alignm...
The correlation between the spins of dark matter halos and the large-scale structure (LSS) has been ...
We present a numerical evidence supporting the scenario that the peculiar alignments of the galaxy s...
International audienceWe study the spin alignment of galaxies and haloes with respect to filaments a...
This work investigates the alignment of galactic spins with the cosmic web across cosmic time using ...
Galaxies are not distributed randomly throughout space but are instead arranged in an intricate "cos...
International audienceWe search for correlations between the spins in pairs of spiral galaxies, to s...
International audienceGalaxies are not distributed randomly in the cosmic web but are instead arrang...
International audienceThe geometry of the cosmic web drives in part the spin acquisition of galaxies...
Filaments of the cosmic web drive spin acquisition of disc galaxies. The point process of filament-t...
The observational study of the interplay between galaxy angular momentum and structure in the cosmic...
We use a 380-h−1 pc resolution hydrodynamic adaptive mesh refinement (AMR) simulation of a cosmic fi...
We investigate the alignment of the spin of dark matter halos relative (i) to the surrounding large-...
The intrinsic alignment of galaxy shapes (by means of their angular momentum) and their cross-correl...
A large-scale hydrodynamical cosmological simulation, Horizon-AGN, is used to investigate the alignm...
The correlation between the spins of dark matter halos and the large-scale structure (LSS) has been ...
We present a numerical evidence supporting the scenario that the peculiar alignments of the galaxy s...
International audienceWe study the spin alignment of galaxies and haloes with respect to filaments a...
This work investigates the alignment of galactic spins with the cosmic web across cosmic time using ...
Galaxies are not distributed randomly throughout space but are instead arranged in an intricate "cos...
International audienceWe search for correlations between the spins in pairs of spiral galaxies, to s...
International audienceGalaxies are not distributed randomly in the cosmic web but are instead arrang...
International audienceThe geometry of the cosmic web drives in part the spin acquisition of galaxies...
Filaments of the cosmic web drive spin acquisition of disc galaxies. The point process of filament-t...
The observational study of the interplay between galaxy angular momentum and structure in the cosmic...
We use a 380-h−1 pc resolution hydrodynamic adaptive mesh refinement (AMR) simulation of a cosmic fi...
We investigate the alignment of the spin of dark matter halos relative (i) to the surrounding large-...
The intrinsic alignment of galaxy shapes (by means of their angular momentum) and their cross-correl...