65 research outputs found
Evolution of dwarf galaxies in the Fornax cluster
In my thesis I studied how the dense galaxy cluster environment effects the evolution of dwarf galaxies. For the analysis, I used the imaging data of the Fornax Deep Survey (FDS) that is a deep optical multi-band survey done in collaboration of dutch and italian groups using the VST telescope of the European Southern Observatory (ESO) located at Paranal, Chile. I used the deep images of the FDS to search for previously undetected faint dwarf galaxies in the Fornax cluster, and by analyzing their structure, morphology, and colors studied how the properties of the dwarf galaxies change from the outskirts of the cluster towards its center. We obtained new observational evidence suggesting that the star formation of the lowest mass galaxies (stellar mass < 10^8 solar mass) quickly stops in the cluster environment as the cold gas of the dwarf galaxies, that is the fuel of their star-formation, gets removed due to the interactions with the hot intra-cluster gas. More massive dwarfs than that are able to hold some of their cold gas bound, and thus continue forming stars longer in the cluster. Our analysis of the dwarf galaxies in the Fornax cluster is the most extensive work done in that galaxy environment, and it will work as a basis for follow-up studies. I also tested a new max-tree based algorithm to automatically identify faint galaxies from astronomical images, and showed that it performs better than the current standard tool of the field
Young stellar populations in early-type dwarf galaxies; occurrence, radial extent and scaling relations
To understand the stellar population content of dwarf early-type galaxies
(dEs) and its environmental dependence, we compare the slopes and intrinsic
scatter of color-magnitude relations (CMRs) for three nearby clusters, Fornax,
Virgo and Coma. Additionally we present and compare internal color profiles of
these galaxies to identify central blue regions with younger stars.
We use the imaging of the HST/ACS Fornax cluster in the magnitude range of
-18.7 <= M_g' <= -16.0, to derive magnitudes, colors and color profiles, which
we compare with literature measurements.
Based on analysis of the color profiles, we report a large number of dEs with
young stellar populations in their center in all three clusters. While for
Virgo and Coma the number of blue-cored dEs is found to be 85 +/- 2% and 53 +/-
3% respectively, for Fornax, we find that all galaxies have a blue core. We
show that bluer cores reside in fainter dEs, similar to the trend seen in
nucleated dEs. We find no correlation between the luminosity of the galaxy and
the size of its blue core. Moreover, a comparison of the CMRs of the three
clusters shows that the scatter in Virgo's CMR is considerably larger than in
the Fornax and Coma clusters. Presenting adaptive smoothing we show that the
galaxies on the blue side of the CMR often show evidence for dust extinction,
which strengthens the interpretation that the bluer colors are due to young
stellar populations. We also find that outliers on the red side of the CMR are
more compact than expected for their luminosity. We find several of these red
outliers in Virgo, often close to more massive galaxies. No red outlying
compact early-types are found in Fornax and Coma in this magnitude range while
we find three in the Virgo cluster. We suggest that the large number of
outliers and larger scatter found for the Virgo cluster CMR is a result of
Virgo's different assembly history.Comment: 24 pages, accepted for publication in Astronomy and Astrophysic
Signatures of quenching in dwarf galaxies in local galaxy clusters
The transformation of late-type galaxies has been suggested as the origin of
early-type dwarf galaxies in galaxy clusters. Venhola et al. analysed
correlations between colour and surface brightness for galaxies in the Fornax
cluster binned by luminosity or stellar mass. In the bins with , the authors identified a correlation of redness with fainter
surface brightness and interpreted it as a consequence of the quenching of star
formation by ram pressure stripping in the dwarf galaxies. We carry out a
corresponding analysis for the Virgo cluster and find great similarities in
these correlations between surface brightness and colour for the two clusters,
despite expected differences in the strength of the ram pressure. Furthermore,
we extend the analysis to a wider range of optical colours for both clusters
and contrast the results with expectations for fading and reddening stellar
populations. Overall the slopes of the surface brightness-colour relations are
consistent with these models. In addition the sizes of the early- and late-type
galaxies at these low masses are comparable. These two results are compatible
with a transformation scenario. However, when analysing early- and late-type
galaxies separately, the consistency of the slope of the surface
brightness-colour relations with the model expectations for fading and
reddening stellar population applies only to the late types. The lack of this
imprint for the early-type dwarfs calls for some additional explanation, for
which we discuss several possibilities. Finally, the Virgo cluster is an
atypical cluster with a low fraction of quiescent early-type galaxies at all
galaxy masses despite its large cluster mass. (abridged)Comment: 17 pages, 16 figures, accepted for publication in A&
The distribution and morphologies of Fornax Cluster dwarf galaxies suggest they lack dark matter
EA is supported by a stipend from the Stellar Populations and Dynamics Research Group at the University of Bonn. IB is supported by Science and Technology Facilities Council grant ST/V000861/1, which also partially supports HZ. IB acknowledges support from a âPathways to Researchâ fellowship from the University of Bonn. PK acknowledges support through the Deutscher Akademischer AustauschdienstEastern European Exchange Programme.Due to their low surface brightness, dwarf galaxies are particularly susceptible to tidal forces. The expected degree of disturbance depends on the assumed gravity law and whether they have a dominant dark halo. This makes dwarf galaxies useful for testing different gravity models. In this project, we use the Fornax Deep Survey (FDS) dwarf galaxy catalog to compare the properties of dwarf galaxies in the Fornax Cluster with those predicted by the standard model of cosmology (ÎCDM) and Milgromian dynamics (MOND). We construct a test particle simulation of the Fornax system. We then use the MCMC method to fit this to the FDS distribution of tidal susceptibility η (half-mass radius divided by theoretical tidal radius), the fraction of dwarfs that visually appear disturbed as a function of η, and the distribution of projected separation from the cluster centre. This allows us to constrain the η value at which dwarfs should get destroyed by tides. Accounting for an râČ-band surface brightness limit of 27.8 magnitudes per square arcsecond, the required stability threshold is ηdestr=0.25+0.07â0.03 in ÎCDM and 1.88+0.85â0.53 in MOND. The ÎCDM value is in tension with previous N-body dwarf galaxy simulations, which indicate ηdestr â 1. Our MOND N-body simulations indicate ηdestr = 1.70 ± 0.30, which agrees well with our MCMC analysis of the FDS. We therefore conclude that the observed deformations of dwarf galaxies in the Fornax Cluster and the lack of low surface brightness dwarfs towards its centre are incompatible with ÎCDM expectations but well consistent with MOND.PostprintPeer reviewe
Signatures of quenching in dwarf galaxies in local galaxy clusters: A comparison of the galaxy populations in the Virgo and Fornax clusters
Context. The transformation of late-type galaxies has been suggested as the origin of early-type dwarf galaxies (typically Mâââ€â109âMâ) in galaxy clusters. Based on deep images, Venhola and colleagues analysed correlations between colour and surface brightness for galaxies in the Fornax cluster binned by luminosity or stellar mass. In the bins with Mââ8âMâ, the authors identified a correlation of redness with fainter surface brightness and interpreted it as a consequence of the quenching of star formation by ram pressure stripping in the dwarf galaxies.Aims. This study carries out a similar analysis for the Virgo cluster. The analysis for both clusters is then used to compare the Virgo and Fornax clusters, for which the ram pressure is expected to have different strengths. The purpose of this is to scrutinise the ram pressure interpretation from the other study and search for differences between the clusters that reflect the different ram pressure efficiencies, which would either support or weaken this interpretation. Ultimately, this could help weigh the importance of ram pressure stripping relative to other transformative processes in the shaping of the dominant early-type dwarf galaxy population.Methods. We extend the analysis of colour versus surface brightness binned by stellar mass to higher masses and a wider range of optical colours. The results, in particular at low stellar mass, are compared to predictions of stellar evolution models. Benefitting from larger sample sizes, we also analyse late- and early-type galaxies separately. This analysis is carried out for the Virgo and Fornax clusters, and the colour versus surface brightness relation, as well as other properties of the two clustersâ galaxy populations, are compared.Results. While the colourâsurface brightness diagrams are remarkably similar for the two clusters, only the low-mass late-type galaxies are found to have slopes consistent with a fading and reddening following the quenching of star formation. For the early-type galaxies, there are no (or only weak) correlations between colour and surface brightness in all mass bins. Early- and late-type galaxies in both clusters have comparable sizes below a stellar mass of MâââČâ108âMâ. The colour and size scaling relations are very similar for the Virgo and Fornax clusters. However, Virgo features a lower fraction of early-type or red galaxies despite its higher mass.Conclusions. The similarity of early-type dwarfs and low-mass late types in size at the masses MâââČâ108âMâ as well as the overall consistency of the colourâsurface brightness correlation with fading stellar populations support a scenario of transformation via the quenching of star formation, for example by gas removal. However, the lack of this imprint of an ageing stellar population on the early-type dwarfs themselves calls for some additional explanation. Finally, the Virgo cluster is an atypical cluster with a comparably low fraction of quiescent early-type galaxies at all galaxy masses despite its large cluster mass.Key words: galaxies: clusters: general / galaxies: evolution / galaxies: dwarf / galaxies: stellar content / galaxies: clusters: individual: Virgo / galaxies: clusters: individual: Fornax© ESO 2021</p
Photometric properties of nuclear star clusters and their host galaxies in the Fornax cluster
Aims. We aim to investigate the relations between nuclear star clusters (NSCs) and their host galaxies and to offer a comparison between the structural properties of nucleated and non-nucleated galaxies. We also address the environmental influences on the nucleation of galaxies in the Fornax main cluster and the Fornax A group.Methods. We selected 557 galaxies (105.5 Mâ *,galaxy 11.5 Mâ) for which structural decomposition models and non-parametric morphological measurements are available from our previous work. We determined the nucleation of galaxies based on a combination of visual inspection of galaxy images and residuals from multi-component decomposition models, as well as using a model selection statistic, the Bayesian information criterion (BIC), to avoid missing any faint nuclei. We also tested the BIC as an unsupervised method to determine the nucleation of galaxies. We characterised the NSCs using the nucleus components from the multi-component models conducted in the g', r', and i' bands.Results. Overall, we find a dichotomy in the properties of nuclei that reside in galaxies more or less massive than M*,galaxy â 108.5 Mâ. In particular, we find that the nuclei tend to be bluer than their host galaxies and follow a scaling relation of M*,nuc â M*,galaxy 0.5 for M*,galaxy 8.5 Mâ. In galaxies with M*,galaxy > 108.5 Mâ we find redder nuclei compared to the host galaxy, which follows M*,nuc â M*,galaxy. Comparing the properties of nucleated and non-nucleated early-type galaxies, we find that nucleated galaxies tend to be redder in global (g' - r') colour, have redder outskirts relatively to their own inner regions (Î(g' - r')), are less asymmetric (A), and exhibit less scatter in the brightest second-order moment of light (M-20) than their non-nucleated counterparts at a given stellar mass. However, with the exception of Î(g' - r') and the Gini coefficient (G), we do not find any significant correlations with cluster-centric distance. Yet, we find the nucleation fractions to be typically higher in the Fornax main cluster than in the Fornax A group, and that the nucleation fraction is highest towards the centre of their respective environments. Additionally, we find that the observed ultra-compact dwarf (UCD) fraction (i.e. the number of UCDs over the number of UCDs and nucleated galaxies) in Fornax and Virgo peaks at the cluster centre and is consistent with the predictions from simulations. Lastly, we find that the BIC can recover our labels of nucleation up to an accuracy of 97% without interventions.Conclusions. The different trends in NSC properties suggest that different processes are at play at different host stellar masses. A plausible explanation is that the combination of globular cluster in-spiral and in situ star formation play a key role in the build-up of NSCs. In addition, the environment is clearly another important factor in the nucleation of galaxies, particularly at the centre of the cluster where the nucleation and UCD fractions peak. Nevertheless, the lack of significant correlations with the structures of the host galaxies is intriguing. Finally, our exploration of the BIC as a potential method of determining nucleation have applications for large-scale future surveys, such as Euclid.</p
The Fornax Deep Survey with the VST XII. Low surface brightness dwarf galaxies in the Fornax cluster
Context. Low surface brightness (LSB) dwarf galaxies in galaxy clusters are an interesting group of objects as their contribution to the galaxy luminosity function and their evolutionary paths are not yet clear. Increasing the completeness of our galaxy catalogs is crucial for understanding these galaxies, which have effective surface brightnesses below 23 mag arcsecâ2 (in optical). Progress is continuously being made via the performance of deep observations, but detection depth and the quantification of the completeness can also be improved via the application of novel approaches in object detection. For example, the Fornax Deep Survey (FDS) has revealed many faint galaxies that can be visually detected from the images down to a surface brightness level of 27 mag arcsecâ2, whereas traditional detection methods, such as using Source Extractor (SE), fail to find them.
Aims. In this work we use a max-tree based object detection algorithm (Max-Tree Objects, MTO) on the FDS data in order to detect previously undetected LSB galaxies. After extending the existing Fornax dwarf galaxy catalogs with this sample, our goal is to understand the evolution of LSB dwarfs in the cluster. We also study the contribution of the newly detected galaxies to the faint end of the luminosity function.
Methods. We test the detection completeness and parameter extraction accuracy of MTO using simulated and real images. We then apply MTO to the FDS images to identify LSB candidates. The identified objects are fitted with 2D SĂ©rsic models using GALFIT and classified as imaging artifacts, likely cluster members, or background galaxies based on their morphological appearance, colors, and structure.
Results. With MTO, we are able to increase the completeness of our earlier FDS dwarf catalog (FDSDC) 0.5â1 mag deeper in terms of total magnitude and surface brightness. Due to the increased accuracy in measuring sizes of the detected objects, we also add many small galaxies to the catalog that were previously excluded as their outer parts had been missed in detection. We detect 265 new LSB dwarf galaxies in the Fornax cluster, which increases the total number of known dwarfs in Fornax to 821. Using the whole cluster dwarf galaxy population, we show that the luminosity function has a faint-end slope of α = â1.38 ± 0.02. We compare the obtained luminosity function with different environments studied earlier using deep data but do not find any significant differences. On the other hand, the Fornax-like simulated clusters in the IllustrisTNG cosmological simulation have shallower slopes than found in the observational data. We also find several trends in the galaxy colors, structure, and morphology that support the idea that the number of LSB galaxies is higher in the cluster center due to tidal forces and the age dimming of the stellar populations. The same result also holds for the subgroup of large LSB galaxies, so-called ultra-diffuse galaxies
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