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Auteurs principaux: Pu, Yahan, Wang, Lan, Zeng, Guangquan, Xie, Lizhi
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2511.17060
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author Pu, Yahan
Wang, Lan
Zeng, Guangquan
Xie, Lizhi
author_facet Pu, Yahan
Wang, Lan
Zeng, Guangquan
Xie, Lizhi
contents To investigate how the presence of baryons in simulations affects galaxy merger orbits, we compare in detail the merger timescales and orbits of the matched merger pairs in TNG100 hydrodynamical simulations and their corresponding dark-matter-only simulations, for different resolution levels. Compared with the mergers in the TNG100-1-Dark simulation without baryons, the matched mergers in the TNG100-1 simulation have similar infall time, but have statistically earlier merger times and therefore shorter merger timescales. The merger orbits for the matched pairs in the TNG100-1 and the TNG100-1-Dark simulations are similar right after infall, and both evolve to more head-on orbits at final stages, with smaller changes in the hydrodynamical simulation. In the final 2 Gyr before merger, the collision angles that represent merger orbits quantitatively are smaller in TNG100-1 than those in TNG100-1-Dark, by around 6$^\circ$ to 10$^\circ$, depending on the mass ratios and galaxy masses investigated. Our results demonstrate that the presence of baryons accelerates a bit the merger processes, and results in more spiral-in orbits for both major and minor mergers in galaxies with various stellar masses. These effects are less obvious in simulations with lower resolutions.
format Preprint
id arxiv_https___arxiv_org_abs_2511_17060
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Comparing galaxy merger orbits in hydrodynamical simulation and in dark-matter-only simulation
Pu, Yahan
Wang, Lan
Zeng, Guangquan
Xie, Lizhi
Astrophysics of Galaxies
To investigate how the presence of baryons in simulations affects galaxy merger orbits, we compare in detail the merger timescales and orbits of the matched merger pairs in TNG100 hydrodynamical simulations and their corresponding dark-matter-only simulations, for different resolution levels. Compared with the mergers in the TNG100-1-Dark simulation without baryons, the matched mergers in the TNG100-1 simulation have similar infall time, but have statistically earlier merger times and therefore shorter merger timescales. The merger orbits for the matched pairs in the TNG100-1 and the TNG100-1-Dark simulations are similar right after infall, and both evolve to more head-on orbits at final stages, with smaller changes in the hydrodynamical simulation. In the final 2 Gyr before merger, the collision angles that represent merger orbits quantitatively are smaller in TNG100-1 than those in TNG100-1-Dark, by around 6$^\circ$ to 10$^\circ$, depending on the mass ratios and galaxy masses investigated. Our results demonstrate that the presence of baryons accelerates a bit the merger processes, and results in more spiral-in orbits for both major and minor mergers in galaxies with various stellar masses. These effects are less obvious in simulations with lower resolutions.
title Comparing galaxy merger orbits in hydrodynamical simulation and in dark-matter-only simulation
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2511.17060