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Main Authors: Monteiro-Oliveira, Rogério, Lin, Yen-Ting, Chen, Wei-Huai, Chuang, Chen-Yu, Abdurro'uf, Wu, Po-Feng
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2409.16349
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author Monteiro-Oliveira, Rogério
Lin, Yen-Ting
Chen, Wei-Huai
Chuang, Chen-Yu
Abdurro'uf
Wu, Po-Feng
author_facet Monteiro-Oliveira, Rogério
Lin, Yen-Ting
Chen, Wei-Huai
Chuang, Chen-Yu
Abdurro'uf
Wu, Po-Feng
contents The advent of large integral field spectroscopic surveys has found that elliptical galaxies (EGs) can be classified into two classes: the fast rotators (whose kinematics are dominated by rotation) and the slow rotators (which exhibit slow or no rotation pattern). It is often suggested that while the slow rotators typically have boxy isophotal shapes, have a high $α$-to-iron abundance ratio, and are quite massive, the fast rotators often exhibit the opposite properties (that is, having disky isophotes, lower $α$-to-iron ratio, and of typical masses). Whether the EGs consist of two distinct populations (i.e., a dichotomy exists), remains an unsolved issue. To examine the existence of the dichotomy, we used a sample of 1,895 EGs from the SDSS-IV MaNGA survey, and measured robustly the stellar kinematics, isophotal shapes, and [Mg/Fe] ratio. We confirmed the previous finding that the bulk of the EGs are disky (65%) and fast rotators (67%), but found no evidence supporting a dichotomy, based on a principal component analysis. The different classes (boxy/disky and slow/fast rotators) of EGs occupy slightly different loci in the principal component space. This may explain the observed trends that led to the premature support of a dichotomy based on small samples of galaxies.
format Preprint
id arxiv_https___arxiv_org_abs_2409_16349
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle No Evidence of a Dichotomy in the Elliptical Galaxy Population
Monteiro-Oliveira, Rogério
Lin, Yen-Ting
Chen, Wei-Huai
Chuang, Chen-Yu
Abdurro'uf
Wu, Po-Feng
Astrophysics of Galaxies
The advent of large integral field spectroscopic surveys has found that elliptical galaxies (EGs) can be classified into two classes: the fast rotators (whose kinematics are dominated by rotation) and the slow rotators (which exhibit slow or no rotation pattern). It is often suggested that while the slow rotators typically have boxy isophotal shapes, have a high $α$-to-iron abundance ratio, and are quite massive, the fast rotators often exhibit the opposite properties (that is, having disky isophotes, lower $α$-to-iron ratio, and of typical masses). Whether the EGs consist of two distinct populations (i.e., a dichotomy exists), remains an unsolved issue. To examine the existence of the dichotomy, we used a sample of 1,895 EGs from the SDSS-IV MaNGA survey, and measured robustly the stellar kinematics, isophotal shapes, and [Mg/Fe] ratio. We confirmed the previous finding that the bulk of the EGs are disky (65%) and fast rotators (67%), but found no evidence supporting a dichotomy, based on a principal component analysis. The different classes (boxy/disky and slow/fast rotators) of EGs occupy slightly different loci in the principal component space. This may explain the observed trends that led to the premature support of a dichotomy based on small samples of galaxies.
title No Evidence of a Dichotomy in the Elliptical Galaxy Population
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2409.16349