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The SAMI Galaxy Survey: The internal orbital structure and mass distribution of passive galaxies from triaxial orbit-superposition Schwarzschild models

Authors :
Santucci, Giulia
Brough, Sarah
van de Sande, Jesse
McDermid, Richard M.
van de Ven, Glenn
Zhu, Ling
D'Eugenio, Francesco
Bland-Hawthorn, Joss
Barsanti, Stefania
Bryant, Julia J.
Croom, Scott M.
Davies, Roger L.
Green, Andrew W.
Lawrence, Jon S.
Lorente, Nuria P. F.
Owers, Matt S.
Poci, Adriano
Richards, Samuel N.
Thater, Sabine
Yi, Sukyoung
Santucci, Giulia
Brough, Sarah
van de Sande, Jesse
McDermid, Richard M.
van de Ven, Glenn
Zhu, Ling
D'Eugenio, Francesco
Bland-Hawthorn, Joss
Barsanti, Stefania
Bryant, Julia J.
Croom, Scott M.
Davies, Roger L.
Green, Andrew W.
Lawrence, Jon S.
Lorente, Nuria P. F.
Owers, Matt S.
Poci, Adriano
Richards, Samuel N.
Thater, Sabine
Yi, Sukyoung
Publication Year :
2022

Abstract

Dynamical models are crucial for uncovering the internal dynamics of galaxies, however, most of the results to date assume axisymmetry, which is not representative for a significant fraction of massive galaxies. Here, we build triaxial Schwarschild orbit-superposition models of galaxies taken from the SAMI Galaxy Survey, in order to reconstruct their inner orbital structure and mass distribution. The sample consists of 161 passive galaxies with total stellar masses in the range $10^{9.5}$ to $10^{12} M_{\odot}$. We find that the changes in internal structures within 1$R_{\rm e}$ are correlated with the total stellar mass of the individual galaxies. The majority of the galaxies in the sample ($73\% \pm 3\%$) are oblate, while $19\% \pm 3\%$ are mildly triaxial and $8\% \pm 2\%$ have triaxial/prolate shape. Galaxies with $\log M_{\star}/M_{\odot} > 10.50$ are more likely to be non-oblate. We find a mean dark matter fraction of $f_{\rm{DM}} = 0.28 \pm 0.20$, within 1$R_{\rm e}$. Galaxies with higher intrinsic ellipticity (flatter) are found to have more negative velocity anisotropy $\beta_r$ (tangential anisotropy). $\beta_r$ also shows an anti-correlation with the edge-on spin parameter \lam, so that $\beta_r$ decreases with increasing \lam. We see evidence of an increasing fraction of hot orbits with increasing stellar mass, while warm and cold orbits show a decreasing trend. We also find that galaxies with different ($V/\sigma$ - $h_3$) kinematic signatures have distinct combinations of orbits. These results are in agreement with a formation scenario in which slow- and fast-rotating galaxies form through two main channels.<br />Comment: 40 pages. Accepted for publication in ApJ

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1312096177
Document Type :
Electronic Resource