Probing galaxy evolution by unveiling the structure of massive galaxies across cosmic time and in diverse environments

Weinzirl, Timothy Michael

13 September 2013

How galaxies form and evolve is one of the primary outstanding problems in extragalactic astronomy. I conduct a quantitative census of the relative importance of the major structural components (flattened and dynamically cold disk-dominated components versus puffy and dynamically hot spheroidal or triaxial bulges/ellipticals) in massive galaxies over cosmic time and across different environments in order to explore how galaxies evolve under the action of the various assembly mechanisms (major mergers, minor mergers, gas accretion, and internal secular processes) in these different regimes. I perform three inter-related analyses focusing on massive galaxies from z ~ 0 - 3 in both field and rich cluster environments. Important strengths of this thesis include the use of high-resolution, panchromatic imaging from some of the largest and deepest galaxy surveys with the Hubble Space Telescope (HST), Spitzer, and Chandra space telescopes, and also the inclusion of detailed comparisons between the empirical data and hierarchical ΛCDM-based models of galaxy evolution. / text

Galaxies

High-redshift-galaxies

Galaxy formation

Galaxy evolution

Hubble Space Telescope

The Dynamics and Evolution of Supermassive Black Holes in Merging Galaxies

Blecha, Laura Elizabeth

03 August 2012

This thesis is a theoretical study of supermassive black holes (SMBHs) in merging galaxies. We consider the dynamics that govern inspiralling SMBH pairs and gravitational-wave (GW) recoiling SMBHs, as well as the fueling of active galactic nuclei (AGN) during galaxy mergers. In particular, we focus on the observable signatures that could distinguish dual or recoiling AGN from those in isolated galaxies, and we explore the implications of these events for the coordinated evolution of SMBHs and galaxies. In the second and third chapters, semi-analytical models for GW-recoiling SMBHs are developed. The second chapter illustrates that bound recoiling SMBHs may have long wandering timescales and that recoil events can self-regulate SMBH growth. In the third chapter, we study the evolution of recoiling SMBHs in evolving, gaseous merger remnants. We find that the presence of gas greatly influences recoiling SMBH trajectories and may partially suppress even large recoil kicks in some cases. We also show that kinematically- and spatially-offset AGN can have substantial lifetimes for a wide range in kick speeds. Finally, this chapter illustrates that GW recoil influences the observed SMBH-galaxy relations as well as central star formation in the merger remnant. In the fourth chapter we turn our attention to inspiralling SMBH pairs with kiloparsec-scale separations. We use a novel approach to model the narrow-line emission from these SMBH pairs, in order to understand their relationship to observations of double-peaked narrow-line AGN. Our results indicate that double-peaked narrow-line AGN often arise from gas kinematics rather than from dual SMBH motion, but that the latter are a generic, short-lived phase of SMBH inspiral in gaseous mergers. We identify several diagnostics that could aid in distinguishing the true AGN pairs in the double-peaked sample. Finally, the fifth chapter examines a particular galaxy that exhibits signatures of both a recoiling AGN and an AGN pair. Applying methods developed throughout this thesis, we design models for both scenarios that are well-matched to the available data. Currently, neither possibility can be excluded for this object, but our models constrain the most relevant parameters for etermining its nature and for the design of future observations. / Astronomy

astrophysics

astronomy

active galactic nuclei

black holes

galaxy evolution

galaxy mergers

gravitational waves

The Stellar Populations and Evolution of Virgo Cluster Galaxies

Roediger, Joel C.

25 August 2009

Using a combination of optical and near-infrared photometry, we have studied both the resolved and integrated stellar populations for a sample of Virgo cluster galaxies spanning the full range of galaxian parameters. The derived stellar population properties are compared against galaxy structural and environmental measures to gauge the importance of these factors in establishing galaxy star formation histories and chemical evolution. Although galaxy colours do not uniquely probe a galaxy's star formation history, meaningful results may be obtained if considered in a relative sense. We find that colour profiles reflect variations in both stellar age and metallicity within galaxies. We also uncover systematic variations in colour gradients, and thus age/metallicity gradients, along the Hubble sequence, such that age and metallicity gradients become increasingly negative toward later Hubble types. However, only weak correlations exist between galaxies' stellar populations and their structure and environment. The correlations we find suggest that the star formation histories of gas-rich galaxies are strongly influenced by gas removal within the cluster, while their chemical evolution is due to a combination of stellar mass-dependent enrichment and outflow retention. The assembly of gas-poor giant galaxies is consistent with a hierarchical scenario wherein gas-rich mergers dominate by number. Gas-poor dwarfs differ from the giants, however, appearing as the product of environmentally-driven evolution. Spiral galaxies bridge the dwarf-giant gap, whereby merging and gas-stripping signatures are imprinted in their stars. Early-type spirals seem to have fallen into the cluster sooner than the later types, thereby ceasing star formation in their disks at earlier epochs. The bulges of both types, however, appear to have grown via merging. The nature of this merging (minor versus major) remains unknown. Irregular galaxies exhibit signs of a recent gravitational encounter that has redistributed both their stars and gas, the latter of which caused recent star formation. / Thesis (Master, Physics, Engineering Physics and Astronomy) -- Queen's University, 2009-08-25 14:12:46.48

Extragalactic Astronomy

Galaxy Evolution

Stellar Content

Star Formation Histories

Chemical Evolution

Galaxy Clusters

Distinguishing Modified Newtonian Dynamics from dark matter with galaxy-galaxy lensing measurements

Tian, Lanlan

30 July 2008

As an alternative to dark matter, Modified Newtonian Dynamics (MOND) can explain dynamical measurements of galaxies on small scales. It is, however, unclear whether MOND still works for galaxies on the large scale. In this study, we use galaxy- galaxy (g-g) weak lensing measurements to examine MOND in the outer regions of galaxies. First, we study the amplitude of the weak gravitational lensing signal as a function of stellar mass around relatively isolated galaxies. We find that our measurements are inconsistent with the predictions from MOND. Second, we examine whether MOND can produce an anisotropic lensing signal as observed in the real data. Starting with a mass distribution of an extremely high ellipticity, we find it is very hard for MOND to reproduce the observed extensive anisotropic lensing signal from only the visible mass. Because the g-g lensing is measured at radii of up to hundreds of kiloparsecs, these two tests indicate that MOND does not work in outer regions of galaxies. Our study casts serious doubt on the notation that MOND can convincingly prove itself as a viable alternative to dark matter.

Dark Matter

MOND

galaxy-galaxy lensing

Constraints on environmental and secular effects on the chemodynamical evolution of dwarf galaxies

Leaman, Ryan

20 July 2012

This thesis presents observations and analysis relating to the understanding of processes that govern the formation and evolution of low mass galactic systems. In particular we have focused on separating out the contribution to the chemical and dynamical evolution of dwarf galaxies due to solely secular (internal) processes compared to external effects from the local environment a galaxy resides in. Our observational data focus on an extremely isolated dwarf galaxy, WLM, which we demonstrate has had a uniquely quiescent tidal history, thereby making it an excellent test case for such a study. With spectroscopic and photometric observations of the resolved stars and neutral gas in WLM we have been able to characterize the chemical, structural and kinematic properties of this gas rich dwarf galaxy. As WLM has not been subject to strong tidal or ram-pressure stripping of its stellar and gaseous populations, we have been able to compare the dynamical evolution and chemical history of WLM to theoretical models which are environment independent. A differential comparison of WLM to more environmentally processed dwarf galaxies in the Local Group has revealed that WLM's structural and dynamical state is far from the idealized picture of dIrrs as thin gas-rich rotating systems. The stellar component of WLM shows equal parts rotation and dispersion, and both the gaseous and stellar structural properties show an intrinsically thick axisymmetric configuration. The time evolution of the random (dispersion) component of the stellar orbital energy shows an increase with stellar age, which we show is consistent with secular processes alone - such as disk heating from giant molecular clouds and dark matter substructure. While the degree to which the thick structural and dynamically hot configuration for WLM is surprising, its chemical properties show remarkably consistent values with other galaxies of the same halo mass. Comparing the spatial chemical trends in WLM with other dwarf galaxies we identify a correlation between the strength of the radial abundance gradients and the angular momentum content of dwarf galaxies in the Local Group. Finally using a large sample of chemical abundance measurements in the literature for dwarf galaxies and star clusters, we demonstrate that their distributions of chemical elements all exhibit a binomial form, and use the statistical properties of the distributions to identify a new metric for differentiating low luminosity stellar systems. We further apply a simple binomial chemical evolution model to describe the self-enrichment and pre-enrichment in the two classes of objects, and suggest how this may be used to place constraints on the formation environments of globular clusters in particular. / Graduate

Astrophysics

Galaxy Evolution and Formation

Galaxy Dynamics

Chemical Evolution of Galaxies

Stellar Populations

Spatial distribution of galactic globular clusters : distance uncertainties and dynamical effects

Souza, Juliana Crestani Ribeiro de

January 2017

Fornecemos uma amostra de 170 Aglomerados Globulares Galácticos (GCs) e analisamos as propriedades de sua distribuição espacial. Utilizando um vasto catálogo de nuvens escuras identificadas, listamos os GCs que estão atrás de uma ou mais delas e que podem estar submetidos a uma extinção mais complexa do que a considerada por mapas de extinção. Valores de incerteza em distância são obtidos da literatura recente e comparados com valores derivados de uma fórmula de propagação de erro. GCs são agrupados de acordo com características inusitadas, tais como idades relativamente jovens ou possível conexão com núcleos de galáxias anãs, de forma que o efeito desses grupos pode ser isolado na distribuição espacial geral. Adicionalmente, computamos o centróide da distribuição de GCs e estudamos como esse se relaciona com a distância ao centro da Galáxia. Considerando que uma formação galáctica via colapso monolítico é supostamente simétrica, investigamos assimetrias e como os valores de incerteza das distâncias as modificam. Velocidades espaciais e um potencial Galáctico são empregados para verificar se quaisquer assimetrias na distribuição espacial são devidas a objetos em movimento coerente, ou se são somente efeitos transientes. / We provide a sample of 170 Galactic Globular Clusters (GCs) and analyse its spatial distribution properties. Using a comprehensive dust cloud catalogue, we list the GCs that are behind one or more identified dust clouds and could be subjected to a more complex extinction curve than extinction catalogues consider. Distance uncertainty values are gathered from recent literature and compared to values derived from an error propagation formula. GCs are grouped according to unusual characteristics, such as relatively young age or possible connection to dwarf galaxy nuclei, so that their effect on the general distribution can be isolated. Additionally, we compute the centroid of the GC distribution and study how it relates to the distance to the centre of the Galaxy. Considering that galactic formation via monolithic collapse is expected to be symmetrical, we probe asymmetries and how distance uncertainty values modify them. Spatial velocities and a Galactic potential are used to verify if any asymmetries in the spatial distribution are due to co-moving objects, or if they are merely transient effects.

Aglomerados globulares

Formacao de galaxias

Galaxy: fundamental parameters

Galaxy: kinematics and dynamics

Globular clusters: general

Spatial distribution of galactic globular clusters : distance uncertainties and dynamical effects

Souza, Juliana Crestani Ribeiro de

January 2017

Fornecemos uma amostra de 170 Aglomerados Globulares Galácticos (GCs) e analisamos as propriedades de sua distribuição espacial. Utilizando um vasto catálogo de nuvens escuras identificadas, listamos os GCs que estão atrás de uma ou mais delas e que podem estar submetidos a uma extinção mais complexa do que a considerada por mapas de extinção. Valores de incerteza em distância são obtidos da literatura recente e comparados com valores derivados de uma fórmula de propagação de erro. GCs são agrupados de acordo com características inusitadas, tais como idades relativamente jovens ou possível conexão com núcleos de galáxias anãs, de forma que o efeito desses grupos pode ser isolado na distribuição espacial geral. Adicionalmente, computamos o centróide da distribuição de GCs e estudamos como esse se relaciona com a distância ao centro da Galáxia. Considerando que uma formação galáctica via colapso monolítico é supostamente simétrica, investigamos assimetrias e como os valores de incerteza das distâncias as modificam. Velocidades espaciais e um potencial Galáctico são empregados para verificar se quaisquer assimetrias na distribuição espacial são devidas a objetos em movimento coerente, ou se são somente efeitos transientes. / We provide a sample of 170 Galactic Globular Clusters (GCs) and analyse its spatial distribution properties. Using a comprehensive dust cloud catalogue, we list the GCs that are behind one or more identified dust clouds and could be subjected to a more complex extinction curve than extinction catalogues consider. Distance uncertainty values are gathered from recent literature and compared to values derived from an error propagation formula. GCs are grouped according to unusual characteristics, such as relatively young age or possible connection to dwarf galaxy nuclei, so that their effect on the general distribution can be isolated. Additionally, we compute the centroid of the GC distribution and study how it relates to the distance to the centre of the Galaxy. Considering that galactic formation via monolithic collapse is expected to be symmetrical, we probe asymmetries and how distance uncertainty values modify them. Spatial velocities and a Galactic potential are used to verify if any asymmetries in the spatial distribution are due to co-moving objects, or if they are merely transient effects.

Aglomerados globulares

Formacao de galaxias

Galaxy: fundamental parameters

Galaxy: kinematics and dynamics

Globular clusters: general

Technological characterization of a ultramilonito of Marco -CE region / CaracterizaÃÃo tecnolÃgica de um ultramilonito da regiÃo de Marco-CE

DÃbora MacÃdo do Nascimento

03 September 2014

This dissertation presents the mineralogical and technological characteristics of the Granite Tucunduba, commercially known as Green Galaxy, located in the municipality of Marco - CE. Technological tests of physical indexes (bulk density, apparent porosity and water absorption apparent d'), uniaxial compression, bending in three and four points, AMSLER abrasive wear, impact and hard freezing and thawing body and speed of wave propagation were performed ultrasonic, based ABNT. To complement the data also quantified the rate of exhalation of radon. Radiometric measurement was performed by applying the active detection method exhalation gas for monitoring the amount of 222Rn. With the choice of the tests described, aimed to evaluate the quality of rock for use as ornamental stone. Was added to the main objectives of this work focused on the recognition of the mineralogical composition and textural features and the degree of microcracking of the material petrographic analysis. The petrographic analysis allowed to classify the rock as Ultramilonito feldspathic quartz. Macroscopically we can describe it as a rock of predominantly green. Their degree of microcracking settles around 1.8 / mm Â. The results of technological tests showed that the rock has good quality for ornamental use and coating even in places with large temperature ranges. The radon exhalation rate was within the limits of the United States Environmental Protection Agency. Within this context, the Ultramilonito feldspathic quartz proved to be very tough for use as coating materials. / A presente dissertaÃÃo apresenta as caracterÃsticas mineralÃgicas e tecnolÃgicas do Granito Tucunduba, conhecido comercialmente como Green Galaxy, localizado no municÃpio de Marco â CE. Foram realizados ensaios tecnolÃgicos de Ãndices fÃsicos (massa especÃfica aparente, porosidade aparente e absorÃÃo dâÃgua aparente), compressÃo uniaxial, flexÃo em trÃs e quatro pontos, desgaste abrasivo AMSLER, impacto em corpo duro e congelamento e degelo e velocidade de propagaÃÃo de ondas ultrassÃnicas, baseados em normas da ABNT. Para as anÃlises RadiomÃtricas, escolheu-se quantificar a taxa de exalaÃÃo do gÃs radÃnio, devido a importÃncia do emprego deste ensaio voltado para rochas ornamentais. A mediÃÃo radiomÃtrica foi realizada atravÃs da aplicaÃÃo do mÃtodo de detecÃÃo ativa de exalaÃÃo do gÃs para o monitoramento da quantidade de 222Rn. Com a escolha dos ensaios descritos, objetivou-se avaliar a qualidade da rocha para aplicaÃÃo como rocha ornamental. Foi adicionado aos principais objetivos deste trabalho a anÃlise petrogrÃficas voltada ao reconhecimento da composiÃÃo mineralÃgica e feiÃÃes texturais e o grau de microfissuramento do material. A anÃlise petrogrÃfica permitiu classificar a rocha como Ultramilonito Quartzo FeldspÃtico. Macroscopicamente podemos descrevÃ-la como uma rocha de coloraÃÃo predominantemente verde. Seu grau de microfissuramento se estabelece em torno de 1,8/mmÂ. Os resultados dos ensaios tecnolÃgicos mostraram que a rocha apresenta boa qualidade para uso ornamental e revestimento atà mesmo em locais de grande amplitudes tÃrmicas. A taxa de exalaÃÃo de radÃnio ficou dentro dos limites da AgÃncia de ProteÃÃo Ambiental dos Estados unidos. Dentro deste contexto, o Ultramilonito Quartzo FeldspÃtico mostrou-se bastante resistente para uso como materiais de revestimentos.

Ultramilonito

Green Galaxy

Tucunduba

CaracterizaÃÃo TecnolÃgica

Ultramilonito

Green Galaxy

Tucunduba

CaracterizaÃÃo TecnolÃgica

GEOLOGIA

Galaxy clusters : a probe to galaxy evolution and cosmology / Les amas de galaxies : une sonde pour l'évolution des galaxies et la cosmologie

Martinet, Nicolas

31 August 2015

Cette thèse présente un certain nombre de résultats récents à propos de l'évolution des galaxies et la cosmologie, à partir de l'observation d'amas de galaxies en lumière visible. Nous introduisons d'abord les principales propriétés des amas de galaxies (Chapitre 1.1) et la façon dont ces objets permettent de contraindre le modèle cosmologique standard (Chapitre 1.2). Une grande partie des résultats présentés ici ont été obtenus à partir de l'étude du relevé d'amas DAFT/FADA, qui regroupe des amas dans la gamme de décalages spectraux 0.4<z<0.9 (Chapitre 1.3). Cette thèse est séparée en deux parties, chacune traitant d'une observable particulière : la luminosité des galaxies, puis la forme des galaxies. La fonction de luminosité des galaxies, c'est-à-dire la distribution de leur luminosité, permet d'étudier l'évolution des galaxies dans les amas (Chapitre 2.1). Nous avons calculé les fonctions de luminosité pour un sous-échantillon de 25 amas DAFT/FADA, et avons montré que les galaxies faibles bleues, à fort taux de formation stellaire, évoluent en des galaxies rouges passives des hauts décalages spectraux à aujourd'hui. En comparant les fonctions de luminosité des amas à celles du champ, on observe que cette transformation est plus efficace dans les environnements denses. Nous avons également étudié la fraction de baryons dans les groupes et amas de galaxies (Chapitre 2.2). Nous avons remarqué que dans les groupes la fraction massique d'étoiles peut atteindre des valeurs du même ordre de grandeur que celles de la fraction de gaz intra-amas, alors que dans les amas, la fraction stellaire est généralement négligeable devant celle du gaz. En prenant en compte à la fois les étoiles et le gaz, nous avons posé des contraintes sur le paramètre de densité de matière Omega_M. Les galaxies apparaissent déformées par la présence d'objets d'avant-plan qui courbent les trajectoires lumineuses à leur voisinage. Ce signal de lentille gravitationnelle peut être exploité afin de mesurer la distribution de masse des amas d'avant-plan. Les bases du phénomène de lentille gravitationnelle faible et de la mesure du cisaillement sont introduites au Chapitre . Ces techniques sont ensuite appliquées à un sous-échantillon de 16 amas DAFT/FADA présentant des images Subaru/SuprimeCam ou CFHT/MegaCam (Chapitre 3.1). Nous avons estimé la masse de ces amas, et profité de la large dimension angulaire de ces images pour détecter des filaments et des structures autour de ces amas. Cette étude valide observationnellement le scénario de croissance hiérarchique des amas. Finalement, nous avons détecté les pics de cisaillement dans des simulations de type Euclid, et avons utilisé leur statistique en tant que sonde cosmologique, de façon similaire aux comptages d'amas (Chapitre 3.2). Nous avons calculé les contraintes cosmologiques que cette technique pourra apporter avec les données de la mission spatiale Euclid, et avons développé une approche tomographique qui ajoute l'information des décalages spectraux. Une discussion sur les développements envisagés dans les différents domaines traités conclut cette thèse. / This thesis presents some recent results concerning galaxy evolution and cosmology,based on the observation of galaxy clusters at optical wavelengths. We first introduce the main properties of galaxy clusters (Sect. 1.1) and how they can be used for cosmology within the standard cosmological model (Sect. 1.2). A large fraction of the presented results comes from the study of the DAFT/FADA galaxy cluster survey at redshifts 0.4 < z < 0.9 (Sect. 1.3). We divide our study in two parts according to the observable that is considered: galaxy luminosity or galaxy shape. The distribution of galaxy luminosities is called the galaxy luminosity function (GLF), which can be used to probe the evolution of cluster galaxies (Sect. 2.1). Computing the GLFs for a sub sample of 25 DAFT/FADA clusters, we find that faint blue star forming galaxies are quenched into red quiescent galaxies from high redshift until today. Comparing to the field shows that this transformation is more efficient in high density environments.We also study the fraction of baryons in galaxy groups and clusters (Sect. 2.2). Wefind that in groups, the stars contained in galaxies can reach masses of the same order as those of the intra-cluster gas, while in clusters they are usually negligible relatively to the gas. Taking both stars and gas into account we constrain the matter density parameter Galaxy shapes are distorted by foreground objects that bend light in their vicinity. This lensing signal can be exploited to measure the mass distribution of a foreground cluster. We review the basic theory of weak lensing and shear measurement (Sect. 3.1), and then apply it to a subsample of 16 DAFT/FADA clusters, with Subaru/SuprimeCam or CFHT/MegaCam imaging (Sect. 3.2). We estimate the masses of these clusters, and take advantage of the large fields of view of our images to detect filaments and structures in the cluster vicinity, observationally supporting the hierarchical scenario of cluster growth. Finally, we detect shear peaks in Euclid-like simulations, and use their statistics as a cosmological probe, similarly to cluster counts (Sect. 3.3). We forecast the cosmological constraints that this technique will achieve when applied to the Euclid space mission, and develop a tomographic analysis that adds information from redshifts. We conclude with a discussion of our perspectives on future studies in all the fieldsinvestigated in the present thesis.

Amas de galaxies

Évolution des galaxies

Cosmologie

Lentille gravitationnelle

Cisaillement

Fonction de luminosité

Galaxy clusters

Galaxy evolution

523.1

A census of nuclear stellar disks in early-type galaxies

Bastos Martins Ledo, Hugo Ricardo

January 2016

In this thesis we explored the use of nuclear stellar discs as tracers of the merging history of early-type galaxies. These small structures, just a few tens to a few hundreds of parsecs across, are a common but poorly studied feature of early-type galaxies. They are formed during or shortly after merging events due to the infall of gas, which settles in a disc and leads to the formation of new stars. Initial simulations showed that they should not survive a following major merger and could, therefore, be used to trace the epoch when their host galaxies experienced their last major merger event. We produced the first census of nuclear discs and established that their incidence is 20%, fairly independent of the host-galaxy mass or galactic environment. Furthermore, we have more than doubled the sample of nuclear discs with known photometric properties, finding that they give a hint of possessing different characteristics from those of large, galactic discs. Using these nuclear discs as clocks for the assembly history of galaxies requires dating their stellar populations. By combining the use of integral-field spectroscopy with the a priori knowledge of the relative bulge- and disc-light contribution to the observed spectra, as determined by a photometric disc-bulge decomposition, we have shown that it is possible to reduce the degeneracies that affect the study of two superimposed populations and thus that the age of stellar discs can be measured more precisely. To illustrate our method, we present VLT-VIMOS data for NGC 4458, a low-mass slowly rotating early-type galaxy with a disc that we found to be at least 5-6 Gyr old. The presence of such an old central disc in such a small, slowly-rotating and, mostly likely, round galaxy is particularly puzzling and presents a challenge to existing models. Disc fragility is central to our studies and we have expanded the limited initial simulations to study it in more detail. By means of N-body simulations, we have reproduced the final stages of a galaxy encounter by exposing a nuclear disc rotating in the gravitational potential of its host bulge and central supermassive black hole to the impact of a secondary massive black hole. We explored not only major mergers (1:1 mass ratio), but also large minor mergers (1:5 and 1:10), across a variety of collision angles, and assessed the survival of the disc, as perceived by current observational limits, both for photometry and spectroscopy. As expected, the discs do not survive a major merger whereas it is in general possible to detect their presence after a 1:5 or 1:10 encounter, in particular when looking at kinematic signatures with spectroscopy. This thesis has demonstrated that nuclear discs constitute both a common and accurate tool for constraining the assembling history of nearby early-type galaxies. The advent of more sensitive integral-field spectrographs, such as MUSE, will make measuring the stellar age of nuclear discs not only more precise, but also more economical in terms of telescope time. This will allow embarking on a more systematic age dating campaign for nuclear stellar discs across a wider range of type, mass and galactic environments for their host galaxies. Combining such a census with a larger set of numerical simulations aimed at calibrating better the range of merger event that would erase any photometric or kinematic signature of a nuclear disc, should finally allow us to put firm constraints on the merging history of early-type galaxies.

523.1