SDSS-IV MaNGA: 3D spin alignment of spiral and S0 galaxies
SDSS-IV MaNGA: 3D spin alignment of spiral and S0 galaxies
We investigate the 3D spin alignment of galaxies with respect to the large-scale filaments using the MaNGA survey. The cosmic web is reconstructed from the Sloan Digital Sky Survey using DISPERSE and the 3D spins of MaNGA galaxies are estimated using the thin disc approximation with integral field spectroscopy kinematics. Late-type spiral galaxies are found to have their spins parallel to the closest filament’s axis. The alignment signal is found to be dominated by low-mass spirals. Spins of S0-type galaxies tend to be oriented preferentially in perpendicular direction with respect to the filament’s axis. This orthogonal orientation is found to be dominated by S0s that show a notable misalignment between their kinematic components of stellar and ionized gas velocity fields and/or by low-mass S0s with lower rotation support compared to their high-mass counterparts. Qualitatively similar results are obtained when splitting galaxies based on the degree of ordered stellar rotation, such that galaxies with high spin magnitude have their spin aligned, and those with low spin magnitude in perpendicular direction to the filaments. In the context of conditional tidal torque theory, these findings suggest that galaxies’ spins retain memory of their larger scale environment. In agreement with measurements from hydrodynamical cosmological simulations, the measured signal at low redshift is weak, yet statistically significant. The dependence of the spin-filament orientation of galaxies on their stellar mass, morphology, and kinematics highlights the importance of sample selection to detect the signal.
4626 - 4633
Kraljic, Katarina
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Duckworth, Christopher
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Tojeiro, Rita
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Alam, Shadab
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Bizyaev, Dmitry
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Weijmans, Anne-Marie
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Boardman, Nicholas Fraser
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Lane, Richard R
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21 April 2021
Kraljic, Katarina
44d870ee-8c7a-4149-bc04-d96b15fd9eeb
Duckworth, Christopher
992c216c-8f66-48a8-8de6-2f04b4f736e6
Tojeiro, Rita
db934e1b-317a-4d86-8c2b-2ccdd75cd785
Alam, Shadab
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Bizyaev, Dmitry
93d637f3-ee55-4198-8a6b-c8ddafab676f
Weijmans, Anne-Marie
eeef5841-558d-4553-81b8-6ae55c200657
Boardman, Nicholas Fraser
4ba112a8-8de3-417a-a6fe-5c700189ca94
Lane, Richard R
b800ae2a-f9ce-4ac2-b68e-76fe09b59b3d
Kraljic, Katarina, Duckworth, Christopher, Tojeiro, Rita, Alam, Shadab, Bizyaev, Dmitry, Weijmans, Anne-Marie, Boardman, Nicholas Fraser and Lane, Richard R
(2021)
SDSS-IV MaNGA: 3D spin alignment of spiral and S0 galaxies.
Monthly Notices Of The Royal Astronomical Society, 504, .
(doi:10.1093/mnras/stab1109).
Abstract
We investigate the 3D spin alignment of galaxies with respect to the large-scale filaments using the MaNGA survey. The cosmic web is reconstructed from the Sloan Digital Sky Survey using DISPERSE and the 3D spins of MaNGA galaxies are estimated using the thin disc approximation with integral field spectroscopy kinematics. Late-type spiral galaxies are found to have their spins parallel to the closest filament’s axis. The alignment signal is found to be dominated by low-mass spirals. Spins of S0-type galaxies tend to be oriented preferentially in perpendicular direction with respect to the filament’s axis. This orthogonal orientation is found to be dominated by S0s that show a notable misalignment between their kinematic components of stellar and ionized gas velocity fields and/or by low-mass S0s with lower rotation support compared to their high-mass counterparts. Qualitatively similar results are obtained when splitting galaxies based on the degree of ordered stellar rotation, such that galaxies with high spin magnitude have their spin aligned, and those with low spin magnitude in perpendicular direction to the filaments. In the context of conditional tidal torque theory, these findings suggest that galaxies’ spins retain memory of their larger scale environment. In agreement with measurements from hydrodynamical cosmological simulations, the measured signal at low redshift is weak, yet statistically significant. The dependence of the spin-filament orientation of galaxies on their stellar mass, morphology, and kinematics highlights the importance of sample selection to detect the signal.
Text
stab1109
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Accepted/In Press date: 16 April 2021
Published date: 21 April 2021
Identifiers
Local EPrints ID: 472202
URI: http://eprints.soton.ac.uk/id/eprint/472202
ISSN: 1365-2966
PURE UUID: 1c0ce426-c0cd-4ca9-bd68-e6cd1336778e
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Date deposited: 29 Nov 2022 17:35
Last modified: 17 Mar 2024 04:06
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Contributors
Author:
Katarina Kraljic
Author:
Christopher Duckworth
Author:
Rita Tojeiro
Author:
Shadab Alam
Author:
Dmitry Bizyaev
Author:
Anne-Marie Weijmans
Author:
Nicholas Fraser Boardman
Author:
Richard R Lane
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