The SAMI Galaxy Survey: Kinematics of Stars and Gas in Brightest Group Galaxies—The Role of Group Dynamics

Mojtaba Raouf,Samuel N Richards,Rory Smith,Nicholas Scott,Habib G Khosroshahi,Ho Seong Hwang,Jae-Woo Kim,Julia J Bryant,Luca Cortese,Jongwan Ko,Jihye Shin,Jesse Van De Sande,Matt S Owers ,S M Croom ,J Bland‐Hawthorn ,Jon Lawrence ,Sarah Brough ,Á R López-Sánchez ,Simon P Driver ,I S Konstantopoulos

doi:10.3847/1538-4357/abd47d

Abstract

Abstract We study the stellar and gas kinematics of the brightest group galaxies (BGGs) in dynamically relaxed and unrelaxed galaxy groups for a sample of 154 galaxies in the SAMI galaxy survey. We characterize the dynamical state of the groups using the luminosity gap between the two most luminous galaxies and the BGG offset from the luminosity centroid of the group. We find that the misalignment between the rotation axis of gas and stellar components is more frequent in the BGGs in unrelaxed groups, although with quite low statistical significance. Meanwhile, galaxies whose stellar dynamics would be classified as “regular rotators” based on their kinemetry are more common in relaxed groups. We confirm that this dependency on group dynamical state remains valid at fixed stellar mass and Sérsic index. The observed trend could potentially originate from a differing BGG accretion history in virialized and evolving groups. Among the halo relaxation probes, the group BGG offset appears to play a stronger role than the luminosity gap on the stellar kinematic differences of the BGGs. However, both the group BGG offset and luminosity gap appear to roughly equally drive the misalignment between the gas and stellar component of the BGGs in one direction. This study offers the first evidence that the dynamical state of galaxy groups may influence the BGG's stellar and gas kinematics, and we call for further studies using a larger sample with higher signal-to-noise.

Highlights

The impact of a merger on the gas-kinematics is greater than on the stellar dynamics of galaxies (BarreraBallesteros et al 2015)
We characterize the dynamical state of the groups using the luminosity gap between the two most luminous galaxies and the brightest group galaxies (BGGs) offset from the luminosity centroid of the group
This study offers the first evidence that the dynamical state of galaxy groups may influence the BGG’s stellar and gas kinematics and calls for further studies using a larger sample with higher signal-to-noise

Summary

Introduction

The impact of a merger on the gas-kinematics is greater than on the stellar dynamics of galaxies (BarreraBallesteros et al 2015). Bryant et al (2019) used 618 galaxies with fitted gas and stellar position angle (hereafter: PA) from the SAMI galaxy survey and found that ∼ 45% of early-type galaxies and ∼5% of late-type galaxies have a gas PA offset of more than 30 degrees with respect to the stars. They found a stronger correlation of the gas-star misalignment with morphology compared to the stellar mass, color, or local environment of galaxies. Davis & Bureau (2016) showed that the gas-star misalignment in early-type galaxies could originate from a continuous Count AHLolilgwhggaapp. Superimposed are limits for selecting high/low gap and low/high offset groups as shown by the shaded red/blue regions, respectively, separated by dashed-lines

Methods

Results

Conclusion