The kinematics of young and old stellar populations in nuclear rings of   MUSE TIMER galaxies

D. Rosado-Belza (1; 2); J. Falc\'on-Barroso (1; 2); J. H. Knapen; (1; 2); A. Bittner (3; 4); D. A. Gadotti (3); J. Neumann (5); A. de; Lorenzo-C\'aceres (1; 2); J. M\'endez-Abreu (1; 2; 6; and 7); M. Querejeta; (3; 8); I. Mart\'in-Navarro (1; 2); P. S\'anchez-Bl\'azquez (9; 10),; P. R. T. Coelho (11); M. Martig (12); G. van de Ven (13); and T. Kim (14); ((1) Instituto de Astrof\'isica de Canarias; San Crist\'obal de La Laguna,; Spain; (2) Departamento de Astrof\'isica; Universidad de La Laguna; San; Crist\'obal de La Laguna; Spain; (3) European Southern Observatory; Garching; bei M\"unchen; Germany; (4) Ludwig-Maximilan-Universit\"at; M\"unchen,; Germany; (5) Institute of Cosmology; Gravitation; University of; Portsmouth; Portsmouth; United Kingdom; (6) Departamento de F\'isica; Te\'orica y del Cosmos; Universidad de Granada; Granada; Spain; (7) Instituto; Carlos I de F\'isica Te\'orica y Computacional; Facultad de Ciencias,; Granada; Spain; (8) Observatorio Astron\'omico Nacional; Madrid; Spain; (9); Departamento de F\'isica de la Tierra y Astrof\'isica; Universidad; Complutense de Madrid; Madrid; Spain; (10) IPARCOS; Facultad de Ciencias; F\'isicas; Universidad Complutense de Madrid; Madrid; Spain; (11) Instituto; de Astronom\'ia; Geof\'isica e Ci\^encias Atmosf\'ericas; Universidade de; S\~ao Paulo; S\~ao Paulo; Brazil; (12) Astrophysics Research Institute,; Liverpool John Moores University; Liverpool; United Kingdom; (13) Department; of Astrophysics; University of Vienna T\"urkenschanzstra{\ss}e; Vienna,; Austria; (14) Department of Astronomy; Atmospheric Sciences; Kyungpook; National University; Daegu; Korea)

arXiv:2010.11815·astro-ph.GA·January 4, 2021

The kinematics of young and old stellar populations in nuclear rings of MUSE TIMER galaxies

D. Rosado-Belza (1, 2), J. Falc\'on-Barroso (1, 2), J. H. Knapen, (1, 2), A. Bittner (3, 4), D. A. Gadotti (3), J. Neumann (5), A. de, Lorenzo-C\'aceres (1, 2), J. M\'endez-Abreu (1, 2, 6, and 7), M. Querejeta, (3, 8), I. Mart\'in-Navarro (1, 2), P. S\'anchez-Bl\'azquez (9, 10),

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TL;DR

This study uses integral field spectroscopy to compare the kinematics of young and old stellar populations in nuclear rings of galaxies, revealing differences in velocity dispersion and correlations with dust extinction, aiding galaxy evolution understanding.

Contribution

It introduces a method to distinguish stellar population kinematics in galaxy nuclear rings using spectral regions sensitive to different ages, accounting for dust effects and spectral masking.

Findings

01

Young populations have higher velocity dispersions than old ones.

02

Dust extinction correlates with kinematic differences between populations.

03

Kinematic differences are detectable even with intermediate resolution spectroscopy.

Abstract

Studying the stellar kinematics of galaxies is a key tool in the reconstruction of their evolution. However, the current measurements of the stellar kinematics are complicated by several factors, including dust extinction and the presence of multiple stellar populations. We use integral field spectroscopic data of four galaxies from the TIMER survey to explore and compare the kinematics measured in different spectral regions that are sensitive to distinct stellar populations. We derive the line-of-sight velocity and velocity dispersion of both a young (<2 Gyr) and an old stellar population from the spectral regions around the H $β$ line and the Ca II Triplet. In addition we obtain colour excess, mean age, and metallicity. We report a correlation of the colour excess with the difference in the kinematic parameters of the H $β$ line and the Ca II Triplet range, which are dominated…

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