Dwarf and Subgiant Stars as Probes of Galactic Chemical and Dynamical Evolution

Thorén, Patrik

January 2001

Stellar chemical abundances provide astronomers with vital information about the production of chemical elements. Some stars preserve the composition of the environment in which they were born on their surfaces. By analysing the light from a star, the abundances of elements, its age and its path in space can be derived, and translated into the language of galactic history. The spallative history of boron in the early Galaxy was reinvestigated by observations of an ultraviolet spectral line in the old star HD 140283 with the Hubble Space Telescope. The line was barely detected and the upper limit abundance derived was lower than expected, which calls for further observations of this line in halo stars. Stars evolved into subgiants were observed with the ESO CAT, La Silla, and NOT, La Palma, to deduce their usefulness for galactic evolution studies. The high resolution spectroscopy study of the 26 objects showed that these stars are indeed useful for such studies. They are more luminous than dwarf stars and their ages can be accurately derived. They do not seem to have changed their surface abundances due to their evolution into giants. Subgiants can successfully be used to observationally reach regions further from the Earth, which can remove local biases that may appear when only observing nearby dwarf stars. A NLTE investigation of neutral Ca showed that cool metal rich dwarf stars did not deviate significantly from LTE, as had earlier been suggested. By an LTE analysis of a sample of 17 such dwarfs, using recent MARCS atmospheres, synthetic spectroscopy and modern atomic line data, cool metal rich dwarfs were shown not to deviate significantly from the expected abundance patterns in a number of elements. This increases the number of potential targets for studies of galactic chemical evolution in the metal rich regime since most stars are cool.

Astronomy

Abundances

atomic data

Galactic evolution

late-type stars

main sequence stars

subgiants

Pop II

Pop I

stellar evolution

Astronomi

Astronomy and astrophysics

Astronomi och astrofysik

Study of the dynamics of barred early type galaxies via numerical simulations

Lablanche, Pierre-Yves

04 April 2012

Since the 30's and Edwin Hubble's famous classification, galaxies are usually separated in twogroups : the late-type galaxies (LTGs) and the early-type galaxies (ETGs). The LTGs family ismainly made of spiral galaxies (S) while the ETGs family is composed of elliptical (E) and lenticular(S0) galaxies. A morphological study of all these galaxies revealed that around 60% of LTGs and45% of S0 present a bar. It has also been shown that, in the local Universe, galaxies fall into twobig groups : the blue cloud mostly populated by LTGs and the red sequence mainly made of ETGs.Several mechanisms are responsible for this distribution and the secular evolution is obviously animportant one to examine, sepcially in the context of bars, as an important number of studiesshowed the importance of bars in the dynamics and evolution of a galaxy.The goal of my thesis is to study the importance of the formation and ensued bar-drivenevolution influence on ETGs evolution. In that context, I have performed N-body simulations ofbarred (and unbarred) galaxies in order to investigate the following issues.First of all, I focused on the influence of a bar in a galaxy when modelling it with a dynamicalmodel assuming an axisymmetric mass distribution. As these kinds of models allow to determine themass-to-light ratio M/L, thus the dynamical mass of an observed galaxy, but also its inclinationand its anisotropy, it is important to evalute the consequence of the presence of a bar on theseparameters. I have shown that, depending on the galaxy inclination and the bar position angle,M/L is most of the time biased and overestimated, and this can be up to 25%. The size andstrength of the bar also seem to be important factors but a deeper study has to be done to quantifythis preliminary result.In a second step, I have studied the role of bars on the mass and metallicity redistributionsin a lenticular galaxy. I confirmed that the presence of a bar, due to its influence on its hostsystem dynamics, flattens pre-existing metallicity gradients. Moreover, I showed that the degree offlattening and the position of affected regions are directly correlated with the bar structure and thelocation of the dynamical resonances. Nonetheless, this dynamical effect cannot explain the varietyof observed ages and metallicity gradients. The consequences of a barred gravitational potentialon the gas dynamics and the stellar formation should therefore be investigated. This is the topicof the last set of numerical simulations produced which will allow to better understand the globalinfluence a bar has on the secular evolution of ETGs.

[SDU:OTHER] Planète et Univers/Autre

Late-type galaxies

Early-type galaxies

Spiral galaxies

Lenticular galaxies

Elliptical galaxies

Blue cloud

Red sequence

Bar

Axisymmetric mass

Testing the multi-epoch luminosity function of asymptotic giant branch stars in the Small Magellanic Cloud with VISTA

Brogan, Róisín O'Rourke

January 2020

The physics pertaining to the asymptotic giant branch (AGB) phase of stellar evolution has been studied for many years. However, the mechanics behind many characteristics displayed at this stage are still not fully understood. As a member of the Long Period Variable class of stars, AGB stars are invaluable in creating three-dimensional maps of the Milky Way, the Magellanic System and other galaxies with resolved stellar populations. Variable stars can be used to determine radial distances from Earth using their periodic luminosity variations. As this type of star has unknown qualities, models of AGB populations need to be calibrated with observed data. Previous research has derived a best-fitting model using the TRILEGAL code (a TRIdimensional modeL of thE GALaxy). This model was calibrated against single-epoch luminosity functions (LFs) calculated from resolved stellar populations in the Small Magellanic Cloud (SMC). With multi-epoch data now available from the VISTA survey of the Magellanic Clouds (VMC), this best-fitting model can now be compared with the LFs as they vary with time. Firstly, statistical tests are completed to measure the extent of the LF variation between epochs and from the mean LF for both the full VMC AGB catalogue and for the oxygen-rich, carbon-rich and extreme AGB classes. Statistical tests are then performed to measure the similarity between the LFs from different epochs and the simulated LFs, again for the entire sample and the three classes. This investigation shows that, while the current best-fitting model is a good approximation of many individual epochs’ AGB LFs in the SMC to within 3σ, inclusion of multi-epoch data would make for a more robust analysis. In order to do this, it would be desirable to have more epochs with deeper and regular observations that could cover full lightcurves of some of the sources. There also seems to be a statistical difference between the inner and outer areas of the SMC, perhaps due to tidal disruptions. It would be interesting to see the results of a similar study using the LMC, which is less affected by the gravitational influence of its smaller companion. / <p>This thesis was written under the supervision of Maria-Rosa Cioni at the Leibniz Institute for Astrophysics in Potsdam. The presentation was held online due to the COVID-19 pandemic.</p>

stars: AGB

stars: late-type

stars: atmospheres

stars: variable

small magellanic cloud

magellanic system

stellar populations

model stellar populations

dwarf galaxies

Astronomy, Astrophysics and Cosmology

Astronomi, astrofysik och kosmologi

Study of the dynamics of barred early type galaxies via numerical simulations / Etude de la dynamique des galaxies barrées de type précoce via simulations numériques

Lablanche, Pierre-Yves

04 April 2012

Depuis la célèbre classification d’Edwin Hubble dans les années 30, il est coutume de définir unegalaxie comme appartenant soit au groupe des galaxies dites de type tardif (late-type galaxiesabr´eg´e LTGs) soit à celui des galaxies dites de type précoce (early-type galaxies ou ETGs). Lafamille des LTGs est principalement composée de galaxies spirales (S) quand la famille des ETGsregroupe les galaxies lenticulaires (S0) et elliptiques (E). L’étude morphologique de ces galaxies arévélé qu’environ 60% des LTGs et 45% des S0 présentent une barre. Par ailleurs, il a été montréque dans l’Univers local les galaxies pouvaient être séparées en deux grands ensembles : le nuagebleu composé majoritairement de LTGs et la séquence rouge peuplée principalement par les ETGs.Plusieurs mécanismes sont à l’origine de cette distribution et l’évolution séculaire en est évidemmentun point majeur. Un nombre important de recherches ont montré l’importance des barres sur ladynamique et l’évolution d’une galaxie. Le but de ma th`ese est d’´etudier `a quel point la formationd’une barre et l’évolution qui s’ensuit influe sur l’évolution des ETGs. Pour ce faire j’ai réalisédes simulations à N-corps de galaxies barrées (et non barr´ees) qui m’a permis d´étudier les pointssuivants.Je me suis tout d’abord penché sur l’impact de la présence d’une barre dans une galaxie sur unemodélisation de cette dernière par un modèle supposant une ditribution de masse axisymmétrique.Ce genre de modélisation permettant de déterminer le rapport masse/luminosité M/L et donc lamasse d’une galaxie observée mais ´egalement son inclinaison et son anisotropie, il est importantd’estimer l’impact de la présence d’une barre sur ces paramètres. J’ai donc montré qu’en fonctionde l’inclinaison de la galaxie et de la position de la barre par rapport à l’observateur, le rapportM/L était très souvent surestimé avec des erreurs allant jusqu’`a 25%. La taille et la force de labarre sont également apparus comme des facteurs importants mais une étude plus approfondies’imposerait afin de quantifier ce résultat.D’autre part, je me suis intéressé à l’impact d’une barre sur la distribution de masse et de métauxdans une galaxie lenticulaire. J’ai tout d’abord confirmé que la présence d’une barre, de partson influence sur la dynamique d’un système, applatissait les gradients de métallicité. De plusj’ai montré que le degrés d’aplatissement ainsi que la position des zones affectées peuvent êtredirectement mis en relation avec la structure de la barre et notament avec la localisation desrésonances dynamiques. Néanmoins l’influence purement dynamique d’une barre n’explique pasà elle seule les gradients d’âges et de m´etallicité observés. L’étude de l’influence d’un potentielgravitationnel barré sur la dynamique du gaz et donc sur la formation stellaire est donc égalementà prendre un compte. Cela fait l’objet des dernières simulations produites qui permettront de mieuxcomprendre l’influence global d’une barre sur l’évolution séculaire des galaxies de type précoce. / Since the 30’s and Edwin Hubble’s famous classification, galaxies are usually separated in twogroups : the late-type galaxies (LTGs) and the early-type galaxies (ETGs). The LTGs family ismainly made of spiral galaxies (S) while the ETGs family is composed of elliptical (E) and lenticular(S0) galaxies. A morphological study of all these galaxies revealed that around 60% of LTGs and45% of S0 present a bar. It has also been shown that, in the local Universe, galaxies fall into twobig groups : the blue cloud mostly populated by LTGs and the red sequence mainly made of ETGs.Several mechanisms are responsible for this distribution and the secular evolution is obviously animportant one to examine, sepcially in the context of bars, as an important number of studiesshowed the importance of bars in the dynamics and evolution of a galaxy.The goal of my thesis is to study the importance of the formation and ensued bar-drivenevolution influence on ETGs evolution. In that context, I have performed N-body simulations ofbarred (and unbarred) galaxies in order to investigate the following issues.First of all, I focused on the influence of a bar in a galaxy when modelling it with a dynamicalmodel assuming an axisymmetric mass distribution. As these kinds of models allow to determine themass-to-light ratio M/L, thus the dynamical mass of an observed galaxy, but also its inclinationand its anisotropy, it is important to evalute the consequence of the presence of a bar on theseparameters. I have shown that, depending on the galaxy inclination and the bar position angle,M/L is most of the time biased and overestimated, and this can be up to 25%. The size andstrength of the bar also seem to be important factors but a deeper study has to be done to quantifythis preliminary result.In a second step, I have studied the role of bars on the mass and metallicity redistributionsin a lenticular galaxy. I confirmed that the presence of a bar, due to its influence on its hostsystem dynamics, flattens pre-existing metallicity gradients. Moreover, I showed that the degree offlattening and the position of affected regions are directly correlated with the bar structure and thelocation of the dynamical resonances. Nonetheless, this dynamical effect cannot explain the varietyof observed ages and metallicity gradients. The consequences of a barred gravitational potentialon the gas dynamics and the stellar formation should therefore be investigated. This is the topicof the last set of numerical simulations produced which will allow to better understand the globalinfluence a bar has on the secular evolution of ETGs.

Galaxies de type tardif

Galaxies de type précoce

Galaxies spirales

Galaxies lenticulaires

Galaxies elliptiques

Nuage bleu

Séquence rouge

Barre

Masse axisymmétrique

Late-type galaxies

Early-type galaxies

Spiral galaxies

Lenticular galaxies

Elliptical galaxies

Blue cloud

Red sequence

Bar

Axisymmetric mass

523.1

L’archéologie galactique et son application au centre galactique / Galactic archaeology and its application to the galactic center

Nandakumar, Govind

14 September 2018

L'archéologie galactique consiste à disséquer et analyser les nombreuses composantes de la Voie Lactée afin de mettre en évidence et distinguer les processus physiques qui contribuent à sa formation et son évolution. Ceci est possible grâce à une estimation précise des positions, des vitesses ainsi que des propriétés de l'atmosphère stellaire des étoiles individuelles qui appartiennent aux différents populations stellaires qui composent chacune de ces composantes. De ce fait, ce domaine dépend non seulement d'observations photométriques, astrométriques et spectroscopiques permettant de mesurer en détail les propriétés stellaires mentionnées mais également de modèles théoriques précis afin de les confronter avec les données observationnelles. Au cours de cette thèse, j'ai mené une étude détaillée sur les effets de fonction de sélection sur les abondances métalliques en utilisant des sondages spectroscopiques aux grandes échelles, suivi d'observations spectroscopiques de petites et grandes résolutions sur les parties internes de la Voie Lactée afin de caractériser la nature chimique du bulbe galactique ainsi que le taux de formation stellaire dans la zone centrale moléculaire (CMZ). Avec les présents et futurs grands sondages dédiés à l'archéologie galactique tels que APOGEE, RAVE, LAMOST, GALAH, etc.., il est essentiel de connaître la fonction de sélection spécifique qui est associée à la stratégie de ciblage de chacun de ces sondages. En utilisant des champs communs et des lignes de visée similaires entre APOGEE, LAMOST, GES et RAVE, et tout en considérant des modèles de synthèse de population stellaire, J'ai étudié les effets de fonction de sélection sur la fonction de distribution de la métallicité (MDF) et sur le gradient vertical de métallicité dans le voisinage solaire. Mes résultats indiquent qu'il y a un négligeable effet de fonction de sélection sur la MDF ainsi que sur le gradient vertical de métallicité. Ces résultats suggèrent alors que différents sondages spectroscopiques (de différentes résolutions et de longueurs d'onde) peuvent être combinés dans des études similaires à condition que les métallicité soient placées sur la même échelle. Tandis que de plus en plus d'observations spectroscopiques des régions externes du bulbe de la Voie Lactée révèlent la complexité de sa morphologie, sa cinétique et de sa nature chimique, les études détaillées sur les abondances chimiques de la région interne du bulbe (400-500 pc) font en revanche défaut. Je présenterai alors des spectres de haute résolution dans la bande K d'étoiles géantes K/M issues de cette région obscure et obtenus à partir du spectrographe de haute résolution dans l'infrarouge, CRIRES (R-50,000) situé au VLT. Je discuterai ensuite la MDF et les abondances chimiques détaillées de notre échantillon dans cette région et également la symétrie Nord-Sud dans la MDF le long du petit axe du bulbe. Un enjeu majeur dans les modèles d'évolution chimique est le manque de connaissance vis à vis de l'histoire et du taux de la formation stellaire de la Voie Lactée. La partie centrale de la Voie Lactée (<200 pc), appelée communément la zone centrale moléculaire, possède un grand réservoir de gaz moléculaire avec des indications d'activités de formation stellaire durant les 100 000 dernières années. J'ai utilisé des spectres KMOS (VLT) de petite résolution afin d'identifier et analyser les objects stellaires jeunes et massifs (YSOs) et afin d'estimer le taux de formation stellaire dans la CMZ en utilisant la méthode de contage YSO. / Galactic archaeology deals with dissecting the Milky Way into its various components with the objective to disentangle processes contributing to the Milky Way formation and evolution. This relies on precise estimation of positions, velocities as well as stellar atmosphere properties of individual stars belonging to different stellar populations that make up each of these components. Thus this field relies on photometric, astrometric and spectroscopic observations to measure the above mentioned stellar properties in detail in addition to accurate models to compare the observed results with. In this thesis, I have carried out a detailed study of selection function effects on metallicity trends using larges scale spectroscopic surveys, followed by high and low resolution spectroscopic observations towards the inner Milky Way to characterise the chemical nature of the inner Galactic bulge and to measure the star formation rate in the central molecular zone (CMZ), respectively. With ongoing and upcoming large Galactic archaeology spectroscopic surveys such as APOGEE, RAVE, LAMOST, GALAH etc, it is essential to know the specific selection function which is related to the targeting strategy of each of them. By using common fields along similar lines of sight between APOGEE, LAMOST, GES and RAVE, and together with stellar population synthesis models, I investigate the selection function effect on the metallicity distribution function (MDF) and the vertical metallicitiy gradients in the solar neighborhood. My results indicate that there is negligible selection function effect on the MDF and the vertical metallicity gradients. These results suggest that different spectroscopic surveys (different resolutions and wavelength range) can be combined for such studies provided their metallicities are put on the same scale. While more and more spectroscopic observations of the outer bulge regions reveal the complex morphological, kinematic and chemical nature of the Milky Way bulge, there is a lack of detailed chemical abundances studies in the inner bulge region (400-500 pc). I will present high resolution K-band spectra of K/M giants in this highly obscured region obtained using the high resolution infrared spectrograph, CRIRES (R-50,000), on VLT. I will discuss the MDF and detailed chemical abundances of our sample in this region as well as the North-South symmetry in MDF along the bulge minor axis. A major challenge in the chemical evolution models is the lack of knowledge about the star formation history and the star formation rate in the Milky Way. The inner 200 pc of the Milky way, the so called central molecular zone, has a large reservoir of molecular gas with the evidence of star formation activity during the last 100,000 years. I used low resolution KMOS spectra (VLT) to identify and analyse massive young stellar objects (YSOs) and estimated the star formation rate in the CMZ using the YSO counting method.

Voie Lactée

Populations stellaires

Sondages spectroscopiques

Archéologie galactique

Étoiles : abondances

"tardive"

Pré-séquence principale

Massive

Diagramme C-M

Galaxie : bulbe

Centre

Contenu stellaire

Milky Way

Syellar populations

Spectroscopic surveys

Galactic archaeology

Stars: abundances

Late-type

Pre-main sequence

Massive

C-M diagrams

Galaxy: bulge

Center

Stellar content

Linienformation in M Klasse Sternen / Line Formation in M-type Stars

Wende, Sebastian

28 October 2010

No description available.

520 Astronomie

Physics

Hydrodynamik

Massearme Sterne

Späte Sterntypen

Turbulenzen

Molekulare Daten

Linienprofile

Linienidentifikation

Hydrodynamics

Low-Mass-Stars

Late-Type-Stars

Turbulence

Molecular Data

Line Profiles

Line Identification

39.40

39.19

TBG 000: Infrarot-Astronomie

THN 000: Sternaufbau

Sternmodelle {Astronomie}

THT 750: Rote Zwerge {Astronomie}

THT 400: Kalte Sterne {Astronomie}