Orbit-based structural decomposition and stellar population recovery for edge-on barred galaxies

Jin, Yunpeng, Zhu, Ling, Tahmasebzadeh, Behzad, Mao, Shude, van de Ven, Glenn and Davis, Timothy A. ORCID: https://orcid.org/0000-0003-4932-9379 2025. Orbit-based structural decomposition and stellar population recovery for edge-on barred galaxies. Astronomy & Astrophysics 704 , A262. 10.1051/0004-6361/202557236

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Abstract

In our previous paper, we developed an orbit-superposition method for edge-on barred galaxies and constructed a set of dynamical models based on different mock observations of three galaxies from the Auriga simulations. In this study, we adopted 12 cases with side-on bars (three simulated galaxies, each with four different projections). We decomposed these galaxies into different structures combining the kinematic and morphological properties of stellar orbits. We then compared the model-predicted components to their true counterparts in the simulations. Our models can identify (BP/X-shaped) bars, spheroidal bulges, thin discs, and spatially diffuse stellar halos. The mass fractions of bars and discs are well constrained with absolute biases of | f model − f true |≤0.15. We recovered the mass fractions of halos with | f model − f true |≤0.03. For the bulge components, 10 out of 12 cases exhibit | f model − f true |≤0.05, while the other two cases exhibit | f model − f true |≤0.10. Then, by tagging the stellar orbits with ages and metallicities, we derived the chemical properties of each structure. For the stellar ages, our models recovered the negative gradients in the bars and discs, but exhibited relatively larger uncertainties for age gradients in the bulges and halos. The mean stellar ages of all components were constrained with absolute biases | t model − t true |≲1 Gyr. For stellar metallicities, our models reproduced the steep negative gradients of the bars and bulges, as well as all different kinds of metallicity gradients in the discs and halos. Apart from the bulge in the simulated galaxy Au-18, the mean stellar metallicities of all other components were constrained with absolute biases of | Z model − Z true |≤0.5 Z ⊙ .

Item Type:	Article
Date Type:	Published Online
Status:	Published
Schools:	Schools > Physics and Astronomy
Additional Information:	License information from Publisher: LICENSE 1: URL: https://creativecommons.org/licenses/by/4.0, Start Date: 2025-12-12
Publisher:	EDP Sciences
ISSN:	0004-6361
Date of First Compliant Deposit:	22 December 2025
Date of Acceptance:	21 October 2025
Last Modified:	22 Dec 2025 10:15
URI:	https://orca.cardiff.ac.uk/id/eprint/183403

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