A Universal Fundamental Plane and the Mdyn-M Relation for Galaxies with CALIFA and MaNGA

We use the stellar kinematics for 2458 galaxies from the MaNGA survey to explore a universal fundamental plane (UFP) described by the equation , defined by the logarithms of effective radius, Re; the surface brightness within Re, Ie; the dynamical mass-to-light ratio within Re, Ye; and the total vel...

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Bibliographic Details
Published in:The Astrophysical journal 2020-09, Vol.900 (2)
Main Authors: Aquino-Ortíz, E., Sánchez, S. F., Valenzuela, O., Hernández-Toledo, H., Jin, Yunpeng, Zhu, Ling, van de Ven, Glenn, Barrera-Ballesteros, J. K., Avila-Reese, V., Rodríguez-Puebla, A., Tissera, Patricia B.
Format: Article
Language:English
Subjects:
Astronomical models
Astrophysics
Calibration
Disks
Dynamic models
Early-type galaxies
Galaxies
Galaxy kinematics
Kinematics
Late-type galaxies
Logarithms
Parameterization
Polls & surveys
Scaling relations
Scattering
Spheroids
Spiral galaxies
Stars & galaxies
Stellar kinematics
Stellar mass
Surface brightness
Velocity
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Summary:We use the stellar kinematics for 2458 galaxies from the MaNGA survey to explore a universal fundamental plane (UFP) described by the equation , defined by the logarithms of effective radius, Re; the surface brightness within Re, Ie; the dynamical mass-to-light ratio within Re, Ye; and the total velocity parameter at Re, , where is the rotation velocity and is the velocity dispersion. The surface brightness is within Re, Ie, and the dynamical mass-to-light ratio is within Re, e. We use sophisticated Schwarzschild dynamical models for a subsample of 300 galaxies from the CALIFA survey to calibrate the universal fundamental plane. This calibration allows us to propose both (i) a parameterization to estimate the difficult-to-measure averaged dynamical mass-to-light ratio within Re, , once the internal kinematics, surface brightness, and effective radius are known; and (ii) a new, more robust dynamical mass proxy consistent with dynamical models within 0.09 dex. We reproduce the relation between the dynamical mass and the stellar mass in the inner regions of galaxies with lower scatter. We use the estimated from our analysis to explore the UFP with the MaNGA data set. We find that all galaxies, from spheroids to disks, follow the UFP with a scatter significantly smaller (0.05 dex) than the one reported for the fundamental plane (∼0.09 dex) and comparable with Tully-Fisher studies (∼0.05 dex), but for a wider range of galaxy types. We also confirm that spheroidal and spiral galaxies follow the same M -S0.5 scaling relation, with lower scatter than the and ones, which is in agreement with previous studies found in the literature.
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/aba94e