http://arxiv.org/abs/2210.04203
Recent studies illustrate the correlation between the angular momenta of cosmic structures and their Lagrangian properties. However, only baryons are observable and it is unclear whether they reliably trace the cosmic angular momenta. We study the Lagrangian mass distribution, spin correlation and predictability of dark matter, gas, and stellar components of galaxy-halo systems using IllustrisTNG, and show that the primordial segregations between components are typically small. Their proto-shapes are also similar in terms of the statistics of moment of inertia tensors. Under the common gravitational potential they are expected to be exerted the same tidal torque and the strong spin correlations are not destroyed by the nonlinear evolution and complicated baryonic effects, as confirmed by the high-resolution hydrodynamic simulations. We further show that their late time angular momenta traced by total gas, stars, or the central galaxies, can be reliably reconstructed by the initial perturbations. These results suggest that baryonic angular momenta can potentially be used in reconstructing the parameters and models related to the initial perturbations.
M. Sheng, H. Yu, S. Li, et. al.
Tue, 11 Oct 22
84/92
Comments: 7 pages, 5 figures, 1 table, comments welcome
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