Schwarzschild Modeling of Barred S0 Galaxy NGC 4371

Autor(en)

Behzad Tahmasebzadeh, Ling Zhu, Juntai Shen, Dimitri A. Gadotti, Monica Valluri, Sabine Thater, Glenn van de Ven, Yunpeng Jin, Ortwin Gerhard, Peter Erwin, Prashin Jethwa, Alice Zocchi, Edward J. Lilley, Francesca Fragkoudi, Adriana de Lorenzo-Cáceres, Jairo Méndez-Abreu, Justus Neumann, Rui Guo

Abstrakt

We apply the barred Schwarzschild method developed by Tahmasebzadeh et al. (2022) to a barred S0 galaxy, NGC 4371, observed by IFU instruments from the TIMER and ATLAS3D projects. We construct the gravitational potential by combining a fixed black hole mass, a spherical dark matter halo, and stellar mass distribution deprojected from $3.6$ $\mu$m S$^4$G image considering an axisymmetric disk and a triaxial bar. We create two sets of independent models, fitting the kinematic data derived from TIMER and ATLAS3D, separately. The models fit all the kinematic data remarkably well. We find a consistent bar pattern speed from the two sets of models, with $\Omega_{\rm p} = 23.6 \pm 2.8 \hspace{.08cm} \mathrm{km \hspace{.04cm} s^{-1} \hspace{.04cm} kpc^{-1} }$. The dimensionless bar rotation parameter is determined to be $ R_{\rm cor}/R_{\rm bar}=2.2 \pm 0.4$, indicating a slow bar in NGC 4371. Besides, we obtain a dark matter fraction $M_{\rm DM}/ M_{\rm total}$ of $\sim 0.51 \pm 0.06$ within the bar region. Our results support the scenario that bars may slow down in the presence of dynamical friction with a significant amount of dark matter in the disk regions. Based on our model, we further decompose the galaxy into multiple 3D orbital structures, including a BP/X bar, a classical bulge, a nuclear disk, and a main disk. The BP/X bar is not perfectly included in the input 3D density model, but BP/X-supporting orbits are picked through the fitting to the kinematic data. This is the first time a real barred galaxy has been modeled utilizing the Schwarzschild method including a 3D bar. Our model can be applied to a large number of nearby barred galaxies with IFU data, and it will significantly improve the previous models in which the bar is not explicitly included.

Organisation(en)

Institut für Astrophysik

Journal

The Astrophysical Journal

ISSN

0004-637X

Publikationsdatum

09-2023

Peer-reviewed

Ja

ÖFOS 2012

103003 Astronomie, 103004 Astrophysik

Schlagwörter

Link zum Portal

https://ucrisportal.univie.ac.at/de/publications/533a746e-3032-41ae-8fdf-f11b78f03854