# Implications for the origin of dwarf early-type galaxies: a detailed   look at the isolated rotating dwarf early-type galaxy CG 611, with   ramifications for the Fundamental Plane's (S_K)^2 kinematic scaling and the   spin-ellipticity diagram

**Authors:** Alister W. Graham, Joachim Janz, Samantha J. Penny, Igor V., Chilingarian, Bogdan C. Ciambur, Duncan A. Forbes, Roger L. Davies

arXiv: 1705.03587 · 2017-05-24

## TL;DR

This study of the isolated dwarf ETG CG 611 reveals that such galaxies can form through accretion events rather than solely from environmental transformation, impacting our understanding of galaxy evolution and the Fundamental Plane.

## Contribution

It demonstrates that dwarf ETGs can be built by accretion, challenging the traditional view that they form mainly through environmental effects like disk stripping.

## Key findings

- CG 611 contains a faint nuclear spiral and a counter-rotating gas disk.
- Dwarf ETGs can form via accretion, not just environmental transformation.
- Modified spin-ellipticity diagram can better track galaxies with disks.

## Abstract

Selected from a sample of nine, isolated, dwarf early-type galaxies (ETGs) having the same range of kinematic properties as dwarf ETGs in clusters, we use CG 611 (LEDA 2108986) to address the Nature versus Nurture debate regarding the formation of dwarf ETGs. The presence of faint disk structures and rotation within some cluster dwarf ETGs has often been heralded as evidence that they were once late-type spiral or dwarf irregular galaxies prior to experiencing a cluster-induced transformation into an ETG. However, CG 611 also contains significant stellar rotation (~20 km/s) over its inner half light radius, R_(e,maj)=0.71 kpc, and its stellar structure and kinematics resemble those of cluster ETGs. In addition to hosting a faint young nuclear spiral within a possible intermediate-scale stellar disk, CG 611 has accreted an intermediate-scale, counter-rotating gas disk. It is therefore apparent that dwarf ETGs can be built by accretion events, as opposed to disk-stripping scenarios. We go on to discuss how both dwarf and ordinary ETGs with intermediate-scale disks, whether under (de)construction or not, are not fully represented by the kinematic scaling S_0.5=sqrt{ 0.5(V_rot)^2 + sigma^2 }, and we also introduce a modified spin-ellipticity diagram, lambda(R)-epsilon(R), with the potential to track galaxies with such disks.

## Full text

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## Figures

13 figures with captions in the complete paper: https://tomesphere.com/paper/1705.03587/full.md

## References

234 references — full list in the complete paper: https://tomesphere.com/paper/1705.03587/full.md

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Source: https://tomesphere.com/paper/1705.03587