Role of AGN feedback in galaxy evolution at high-redshift / Rôle de la rétroaction des noyaux actifs de galaxie dans l'évolution des galaxies à haut décalage spectral vers le rouge

Collet, Cédric

28 April 2014

Il y a de plus en plus d'indications que les trous noirs super-massifs ont joué un rôle important dans l'évolution des galaxies, en particulier au moment de la formation des galaxies les plus massives à haut décalage spectral vers le rouge (z ~ 2 - 3). Nous nous sommes attachés à quantifier les effets sur le milieu interstellaire des galaxies hôtes que peuvent avoir les jets des radio-galaxies, d'une part, et les importantes luminosités bolometriques des quasars, d'autre part. Pour cela, nous avons étudié la cinématique du gaz ionisé dans 12 radio-galaxies modérément puissantes et dans 11 quasars (6 avec une détection en radio et 5 sans jet détectable) à grand décalage spectral vers le rouge avec le spectro-imageur proche infra-rouge SINFONI du VLT, qui nous donnait accès aux raies d'émission normalement sitées dans le domaine visible. Afin d'évaluer la capacité du NAG à stopper la formation d'étoiles, nous avons cherché des traces de leur rétroaction dans ces galaxies, comme de vents de gaz s'échappant de la galaxie hôte. Dans notre échantillon de radio-galaxies modérément puissantes, nous observons des dispersions de vitesse presque aussi importantes que dans les plus puissantes (avec une FWHM ~ 1000 km/s), mais les quantités de gaz ionisé observées y sont inférieures d'un ordre de grandeur (Mion gas ~ 10^8 - 10^9 Msun) et les gradients de vitesse sont plus faibles (Δv < 400 km/s), quand ils sont observés. Dans notre échantillon de quasars, nous devions d'abord soustraire la composante large des raies d'émission avant de pouvoir étudier leur composante étroite, celle susceptible d'être étendue spatialement. Nous détectons des régions d'émission véritablement étendue autour de quatre des six sources avec une détection en radio et autour d'une seule des cinq sans détection radio. Nous estimons qu'il y a moins de gaz ionisé dans ces sources que dans notre échantillon de radio-galaxies (avec Mion gas ~ 10^7 - 10^8 Msun) et la cinématique de ce gaz est aussi plus calme, similaire à ce qui est observé autour de certains quasars proches. Enfin, de nouvelles observations de deux radio-galaxies particulières nous ont révélé que l'une d'entre elles est entourée de quatorze galaxies-companions et qu'elle se trouve donc dans une partie sur-dense de l'Univers. Nous expliquons donc la morphologie inhabituelle du gaz ionisé présent autour de ces deux radio-galaxies par des cycles répétés d'activité du NAG, en analogie à ce qui est observé dans les amas de galaxies proches, qui sont d'excellents exemples de rétroaction du NAG dans l'Univers local. / There is growing evidence that supermassive black holes may play a crucial role for galaxy evolution, in particular during the formation of massive galaxies at high redshift (z ~ 2 - 3). Our work focuses on quantifying the effects of jets of radiogalaxies and of large bolometric luminosities of quasars on the interstellar gas in their host galaxies. To this end, we studied the kinematics of the ionized gas in 12 moderately powerful radio galaxies and 11 quasars (6 radio-loud and 5 radio-quiet) at high redshifts with rest-frame optical imaging spectroscopy obtained at the VLT with SINFONI. We searched for outflows and other signatures of feedback from the supermassive black holes in the centers of these galaxies to evaluate if the AGN may plausibly quench star formation. In our sample of moderately powerful radiogalaxies, we observe velocity dispersions nearly as large as those observed in the most powerful ones (with FWHM ~ 1000 km/s), but the quantity of ionized gas is decreased by one order of magnitude (Mion gas ~ 10^8 - 10^9 Msun) and velocity gradients tend to be less dramatic (Δv < 400 km/s), when they are observed. In our sample of quasars, we had to carefully subtract the broad spectral component of emission lines to have access to its narrow, and spatially extended, component. We detect truly extended emission line regions in 4/6 sources of our radio-loud subsample and in 1/5 source of our radio-quiet subsample. We estimate that masses of ionized gas in these sources are smaller than in our sample of high-redshift radiogalaxies (with Mion gas ~ 10^7 - 10^8 Msun) and kinematics tend to be more quiescent, akin to what is observed in local quasars. Finally, detailed observations of two outliers among our sample of high-redshift radiogalaxies revealed that one of them is closely surrounded by 14 companions galaxies, hence lying in an overdensity. We therefore interpret the presence and morphology of ionized gas around these galaxies as evidence for repeated cycles ouf AGN outbursts, akin to what can be observed in local clusters of galaxies, which are prime examples of AGN feedback in the nearby Universe.

Evolution des galaxies

Galaxies à haut redshift

Radiogalaxies

Noyau actif de galaxie

Rétroaction AGN

Jets radio

Spectro-imagerie infra-rouge

Instrument : SINFONI/VLT

Galaxy Evolution

High-Redshift Galaxies

Radiogalaxies

Active Galactic Nucleus

AGN Feedback

Radio Jets

Gas Kinematics and Dynamics in Galaxies

Infrared imaging spectroscopy

Instrument : SINFONI/VLT

Cosmologie observationnelle avec le large synoptic survey telescope. Elaboration du banc détalonnage de la caméra et simulation d'oscillations acoustiques de baryons / Observational cosmology with the large synoptic survey telescope : development of the camera calibration optical bench and baryon acoustic oscillations simulation

Gorecki, Alexia

04 October 2011

Il y a presque dix ans que l'accélération de l'expansion de l'Univers a été mise en évidence grâce aux observations des supernovae de type Ia et du fonds diffus cosmologique. Cette découverte a changé notre compréhension du contenu énergétique de l'Univers puisque pour expliquer une telle accélération, une composante supplémentaire de matière (effective ou non) est nécessaire et contribue à hauteur de 70%. Cette dernière est appelé «énergie noire». Elle affecte aussi bien les mesures de distance, que la croissance des sur-densités de matières primordiales qui donnent naissance aux structures. Les principales sondes sensibles à ces deux dernières quantités sont les supernovae de type Ia, les amas de galaxies, les lentilles gravitationnelles, et les oscillations acoustiques des baryons (BAO). Afin de contraindre précisément les modèles théoriques (Constante Cosmologique, modification de la théorie de la relativité générale par exemple) qui tentent de déterminer la nature de l'énergie noire, l'observation de chacune de ces quatre sondes est indispensable. Le niveau de précision sur la mesure des paramètres des modèles d'énergie noire requis est tel qu'une nouvelle génération d'instruments va voir le jour dans les années à venir avec notamment le télescope LSST (Large Synoptic Survey Telescope). Le télescope LSST dont le miroir primaire fait 8.4 mètres de diamètre, produira un sondage couvrant la moitié du ciel observable dans 6 bandes photométriques pendant 10 ans. Sa caméra sera la plus grosse caméra jamais construite dans le monde avec un plan focal de 3.2 milliards de pixels. Cette thèse présente à la fois un aspect expérimental et phénoménologique. Le travail présenté porte tout d'abord sur l'élaboration du banc d'étalonnage de la caméra de LSST, et des premières mesures optiques validant le schéma de principe du banc. Nous présenterons ensuite la simulation des BAO dédiée à LSST tentant de prédire à quelle précision les paramètres d'énergie noire pourront être contraint. L'accent est mis sur la production d'un catalogue photométrique de galaxies simulé ainsi que sur une méthode de calcul des redshifts photométriques. La validation de la méthode grâce à des données spectro-photométriques du CFHTLS est également présentée. / More than ten years ago, the accelerated expansion of the Universe was discovered, by type Ia supernovae, and then confirmed by other probes. This discovery has changed our understanding of the energetic content of the Universe. Indeed, in order to explain such an acceleration, a new component has to be introduced and it must contribute to 70% of the total energy density. This component, the so called Dark Energy, affects both cosmological distances and the growth of structures from which galaxies originates. The main cosmological probes of dark energy are the type Ia supernovae, the galaxy cluster count, the weak gravitational lensing and the baryon acoustic oscillations (BAO). In order to precisely constrain theoretical models, such as the cosmological constant, a modify gravity or a new scalar field, joint observations of all four probes are very efficient. The required accuracy on cosmological measurements is so high that a new generation of instruments is growing, among which the Large Synoptic Survey Telescope (LSST). The telescope, with a primary mirror of 8.4 m diameter, will cover half of the optical sky in six photometric bandpasses. Its camera will be the world biggest camera ever constructed with a focal plane array composed of 3.2 Gpixels. This thesis treats both the experimental and phenomenological aspects. Firstly, the work presented here consists in the development of the LSST camera calibration optical bench. We have designed a system allowing an efficient commissioning of the camera before its installation on the telescope, and a precise calibration of the focal plane. Preliminary measurements validating the design of the bench will be presented. Secondly, a detailed Baryon Acoustic Oscillations simulation dedicated to LSST will be introduced. Its main goal is to predict the level of precision on the dark energy equation of state parameter reconstruction that will be reached with LSST. We will stress on the production of a mock photometric galaxy catalog and on the photometric redshifts computation. A validation of the method on real spectro-photometric from CFHTLS will also be shown.

Cosmologie observationnelle

Redshifts photométriques

Télescope grand champ

CCD

Osccillations acoustiques de baryons

Énergie noire

Observationnal cosmology

Photometric redshift

Large field telescope

Large field telescope

Baryonic acoustic oscillations

Dark energy

530

Combinaisons de sondes cosmologiques : deux applications avec les données de Planck et SDSS-III/BOSS / Combinations of cosmic microwave background and large-scale structure cosmological probes

Doux, Cyrille

14 November 2017

Cette thèse s’intéresse aux combinaisons d’observables cosmologiques provenant des mesures du fond diffus cosmologique et des relevés de galaxies, et est basée sur l’exploitation des données du satellite Planck et du Baryon Oscillation Spectroscopic Survey (BOSS) du Sloan Digital Sky Survey. On explore l’utilisation de corrélations croisées entre les jeux de données afin de mettre en évidence de nouveaux effets et d’améliorer les contraintes statistiques sur les paramètres cosmologiques. Dans un premier temps, on mesure pour la première fois une corrélation entre le lentillage gravitationnel du fond diffus cosmologique et le spectre de puissance des fluctuations de la forêt Lyman-α des quasars. Cet effet, d’origine purement non-linéaire, est interprété comme la réponse du spectre de puissance à des grandes échelles. Il montre comment les fluctuations dans la densité en hydrogène neutre dans le milieu intergalactique sont influencées par des fluctuations à grande échelle dans la densité de matière noire. Le signal mesuré est compatible avec l’approche théorique et des simulations menées par d’autres groupes. Dans un deuxième temps, on développe un formalisme permettant une analyse conjointe de la densité de galaxies et de quasars de BOSS avec le lentillage gravitationnel du fond diffus cosmologique. La prise en compte des corrélations croisées entre ces sondes permet de diminuer les barres d’erreurs de certains paramètres cosmologiques de 20%, ce qui équivaut à augmenter la surface couverte par les relevés de presque 50%. Cette analyse est complétée par la mesure des anisotropies de température du fond diffus cosmologique afin de contraindre tous les paramètres du modèle standard ΛCDM, ainsi que les biais des galaxies. Puis on étend le modèle afin d’explorer les contraintes sur l’équation d’état de l’énergie noire et la somme des masses des neutrinos / This thesis addresses the combinations of cosmological probes from the measurements of the cosmic microwave background (CMB) and galaxy redshift surveys, and exploits data from the Planck satellite and the Baryon Oscillation Spectroscopic Survey (BOSS) of the Sloan Digital Sky Survey. It explores how cross-correlations between different data sets can be used to detect new signals and improve contraints on cosmological parameters. First, we measure, for the first time, the cross-correlation between gravitational lensing of the CMB and the power spectrum of the Lyman-α forest in the spectra of quasars. This effect, which emerges from purely non-linear evolution, is interpreted as the response of the power spectrum to large-scale modes. It shows how fluctuations in the density of neutral hydrogen in the intergalactic medium are affected by large-scale fluctuations in the density of dark matter. The measured signal is compatible with the theoretical approach and simulations run by another group. In a second time, we develop a formalism enabling the joint analysis of the galaxy/quasar density contrast and CMB lensing. Taking cross-correlations between these probes into account reduces error bars on some cosmological parameters by up to 20%, equivalent to an increase in the size of the survey of about 50%. This analysis is completed by CMB temperature anisotropies information in order to constrain all the parameters of the ΛCDM standard model and galaxy biases at once. Finally, it is extended to obtain contraints on the dark energy equation of state as well as the sum of the masses of neutrinos

Cosmologie

Fond diffus cosmologique

Relevés de galaxies

Lentillage gravitationnel

Forêt Lyman-α

Energie noire

Matière sombre

Cosmology

Cosmic microwave background

Galaxy redshift survey

Gravitational lensing

Lyman-α forest

Dark energy

Dark matter

Galaxy populations in distant, X-ray selected clusters of galaxies

Trudeau, Ariane

19 August 2022

Galaxy clusters are the largest gravitationally bound structures in the Universe. Their masses are dominated by dark matter ($\sim$85\% of the mass) with stars representing 1-4\% of their masses. A hot, X-ray emitting gas called the intracluster medium makes most of their baryonic mass. The presence of this gas and of numerous neighbouring galaxies prematurely stop the star formation in clusters. In other terms, more galaxies in clusters are passive than in the general population of galaxies. This effect is mass and position-dependant: high-mass galaxies are more likely to be passive than less massive ones; galaxies inhabiting the cluster core are also less likely to form stars than those in the outskirts. The fraction of passive galaxies is greater in local clusters than in high-redshift ones, because they had more time to evolve. Much is unknown about the cessation of star formation, called quenching, in clusters. Thus, although many examples of infalling galaxies being stripped of their gas have been reported for low-mass galaxies, it is unclear if the most massive members became quenched before or after they become cluster members. The relationship between quenching and the cluster mass is also poorly understood. Despite the variety of methods devised to find clusters of galaxies, most of what we know about quenching in $z\gtrsim 1$ clusters was discovered with optically/infrared-selected cluster samples (clusters found as overdensities of galaxies), or samples of mixed origin. Yet, there is tentative evidence that optically/infrared-selected samples are biased toward having more passive galaxies than those that were X-ray selected. In the present dissertation, quenching is explored in X-ray selected cluster samples. A sample of high-redshift, low-mass galaxy clusters is built by finding galaxy overdensities coincident with sources of extended X-ray emission. A photometry-based analysis reveals that the fraction of quenched galaxies in these clusters is very variable. Moreover, the brightest cluster galaxies are also diverse. Yet, for all the information that photometry can provide, this sample candidate clusters need to be confirmed with spectroscopy. Spectroscopic observations obtained for four candidate clusters are reduced and analysed. The results show that three of them are clusters, the fourth candidate being a superposition of structures. Member spectra are examined to infer their star formation history, and the results shows the existence of an intermediary population of galaxies, where an old stellar population coexists with weak star formation. Finally, the galaxies of a $z=1.98$ X-ray selected cluster, XLSSC 122 are investigated in detail. Photometric data in 12 bands are organized to perform spectral energy distribution fittings, a technique that allows a simplified reconstitution of the history of the star formation. Results show that the members were formed at diverse epochs, the oldest being about 2.5 Gyrs old. Simulations drawn from the Multi Dark Planck 2 are used to infer the mass-scale of the cluster when the oldest galaxies were formed, something that has never been done before. The oldest galaxies were probably formed when XLSSC 122 had accreted $<$10\% of its $z=1.98$ mass, i.e. the mass-scale of a galaxy group. / Graduate

galaxies: clusters: general

galaxies: distances and redshifts

galaxies: evolution

galaxies: high-redshift

galaxies: photometry

galaxies: star formation

galaxies: stellar content

techniques: spectroscopic

X-rays: galaxies: clusters

Probing the Structure of Ionised ISM in Lyman-Continuum-Leaking Green Pea Galaxies with MUSE

Nagar, Chinmaya

January 2023

Lyman continuum (LyC) photons are known to be responsible for reionising the universe after the end of the Dark Ages, which marked a period called the Epoch of Reionisation (EoR). While these high-energy photons are thought to predominantly originate from young, hot, massive stars within the earliest galaxies, and contributions from high-energy sources like quasars and AGN, the origins of these photons are yet not well known and highly debated. Detecting LyC photons from the early galaxies near the EoR is not possible as they get completely absorbed by the intergalactic medium (IGM) on their way to us, which has prompted the development of various indirect diagnostics to study the amount of LyC photons contributed by such galaxies by studying their analogues at low redshifts. In this study, we probe the ionised interstellar medium (ISM) of seven Green Pea galaxies through spatially resolved[O III] λ5007/[O II] λ3727 (O32) and [O III] λ5007/Hα λ6562 (O3Hα) emission-line ratio maps, using data from the Multi Unit Spectroscopic Explorer (MUSE) onboard the Very large telescope (VLT). Out of the two ratios, the former has proven to be a successful diagnostic in predicting Lyman continuum emitters (LCEs). Along with the line ratio maps, the surface brightness profiles of the galaxies are also studied to examine the spatial distribution of the emission lines and the regions from which they originate. The resulting maps indicate whether the ISM of the galaxies is ionization-bounded or density-bounded. Our analysis reveals that a subset of the galaxies with ionization-bounded ISM exhibits pronounced ionisation channels in the outer regions. These channels are potential pathways through which Lyman continuum photons may escape. For density-bounded ISM, the ionised ISM extends well beyond the stellar regions into the halos of the galaxies, highlighting their potential contribution to the ionising photon budget during the EoR. The findings emphasise the importance of spatially resolved ISM studies in understanding the mechanisms facilitating the escape of LyC photons.

Emission-line ratio

Gaussian convolution

Green pea galaxies

ISM

Ionised ISM

Lyman continuum (LyC)

Lyman continuum emitter (LCE)

LyC escape

LyC escape fraction

MUSE

MPDAF

Voronoi binning

Astronomy, Astrophysics and Cosmology

Astronomi, astrofysik och kosmologi

Pre-Supernova Stellar Feedback: from the Milky Way to Reionization

Olivier, Grace Margaret

30 September 2022

No description available.

Astrophysics

Astronomy

Galaxy formation

Stellar feedback

Star formation

Star-forming regions

H II regions

Compact H II region

Dwarf galaxies

Ultraviolet astronomy

Galaxy chemical evolution

Galaxy spectroscopy

High-redshift galaxies

Emission line galaxies

The Stochastic Intergalactic Attenution and its Impact on High-Redshift Galaxies / Die stochastische, intergalaktische Attenuation und ihr Effekt auf hoch rotverschobenen Galaxien

Tepper-García, Thorsten

11 July 2007

No description available.

520 Astronomie

Mathematics and Computer Science

Galaxien

Photometrie

hohe Rotverschiebung

intergalaktisches Medium

Attenuation

numerische Simulationen

Quasarabsorptionslinien

Lyman-alpha Wolken

galaxies

photometry

high-redshift

intergalactic medium

attenuation

numerical simulations

quasar absorption lines

Lyman-alpha absorbers

39.20

39.22

39.30

39.41

TBI 000: Ultraviolett-Astronomie

Measurement of the energy spectrum of the BL Lac object PG1553+113 with the MAGIC telescope in 2005 and 2006

Hengstebeck, Thomas

01 June 2007

In dieser Doktorarbeit wurden im Rahmen des MAGIC Experimentes neue Datenanalysemethoden implementiert, die sich insbesondere fuer die Analyse von Ereignissen niedriger Gammastrahlungsenergie eignen. Die Methoden konnten erfolgreich in Monte Carlo Studien getestet und auf Beobachtungsdaten des Krebsnebels und der extragalaktischen Gammastrahlungsquelle PG1553+113 angewandt werden. Diese Methoden reichen von ''image cleaning'' Techniken und der Nutzung neuer Bildparameter bis zu fortgeschrittenen g/h-Separations- und Energieabschaetzungsverfahren. Zum ersten Mal wurden die Vorteile von Klassifikations- und Regressionsbaeumen in der Gamma-Astrophysik ausgenutzt, um existierende klassische Methoden zu verbessern. Die Analyse - getestet an Monte Carlo Daten - bewies ihre Zuverlaessigkeit bei der Untersuchung der Gammastrahlungsemission des Krebsnebels, wobei ein hochsignifikanter Exzess im Energiebereich unterhalb 100 GeV in nur 1.7 h nachgewiesen werden konnte. Die Analyse von Daten des BL Lac Objekts PG1553+113 ergab signifikante Exzesse fuer Beobachtungen in den Jahren 2005 und 2006. Das kombinierte alpha-Histogramm zeigt ein Signal mit einer Signifikanz, die 8 sigma ueberschreitet. Bei der weiteren Analyse konnte ein differentielles Energiespektrum fuer die kombinierten Daten aus den Jahren 2005 und 2006 erstellt werden. Der integrale Fluss oberhalb von 200 GeV wurde wie folgt bestimmt: F(> 200 GeV) = (1.7+-0.3) 10^(-12)/(cm^2 s), der spektrale Index betraegt Gamma = 3.6+-0.3. Dieses Spektrum konnte daraufhin verwendet werden, um die (unbekannte) Rotverschiebung von PG1553+113 auf z / In this thesis new data analysis methods for the MAGIC experiment were implemented, which are especially suited for the investigation of low energy gamma-ray events. They were successfully tested by means of Monte Carlo studies and applied to observational data of the Crab Nebula and of the extragalactic gamma-ray source PG1553+113. These methods extend from image cleaning techniques and the utilization of new image parameters to sophisticated g/h-separation and energy estimation approaches. For the first time in gamma-ray astrophysics the advantages of classification and regression trees were exploited in order to improve existing `classical'' methods. The analysis procedure - tested on Monte Carlo data - was demonstrated to be reliable in the investigation of the Crab Nebula gamma-ray emission yielding a significant excess in the energy range below 100 GeV in only 1.7 h observation time. The analysis of data taken on the BL Lac PG1553+113 yielded significant excesses for both years 2005 and 2006. The combined alpha histogram shows a signal in excess of 8 sigma. In the further analysis a spectrum could be derived for the combined data sets of 2005 and 2006. The integral flux above 200 GeV could be derived as F(> 200 GeV) = (1.7+-0.3) 10^(-12)/(cm^2 s), the power-law index was measured to be Gamma = 3.6+-0.3. This spectrum was used to constrain the redshift z of PG1553+113 with the result z

Absorption

Physik

Cherenkov

Astronomie

Astrophysik

Gammastrahlung

Aktiver

Galaktischer Kern

AGN

Blazar

Rotverschiebung

Photon-Photon

Extragalaktisches Hintergrundlicht

EBL

g/h-Separation

Random Forest

Krebsnebel

PG1553+113

Cherenkov

physics

astronomy

astrophysics

gamma radiation

Active

Galactic Nucleus

AGN

blazar

redshift

photon-photon absorption

Extragalactic Background Light

EBL

g/h-separation

Random Forest

Crab Nebula

PG1553+113

530 Physik

29 Physik, Astronomie

ddc:530

Plasmonic properties and applications of metallic nanostructures

Zhen, Yurong

16 September 2013

Plasmonic properties and the related novel applications are studied on various types of metallic nano-structures in one, two, or three dimensions. For 1D nanostructure, the motion of free electrons in a metal-film with nanoscale thickness is confined in its normal dimension and free in the other two. Describing the free-electron motion at metal-dielectric surfaces, surface plasmon polariton (SPP) is an elementary excitation of such motions and is well known. When further perforated with periodic array of holes, periodicity will introduce degeneracy, incur energy-level splitting, and facilitate the coupling between free-space photon and SPP. We applied this concept to achieve a plasmonic perfect absorber. The experimentally observed reflection dip splitting is qualitatively explained by a perturbation theory based on the above concept. If confined in 2D, the nanostructures become nanowires that intrigue a broad range of research interests. We performed various studies on the resonance and propagation of metal nanowires with different materials, cross-sectional shapes and form factors, in passive or active medium, in support of corresponding experimental works. Finite- Difference Time-Domain (FDTD) simulations show that simulated results agrees well with experiments and makes fundamental mode analysis possible. Confined in 3D, the electron motions in a single metal nanoparticle (NP) leads to localized surface plasmon resonance (LSPR) that enables another novel and important application: plasmon-heating. By exciting the LSPR of a gold particle embedded in liquid, the excited plasmon will decay into heat in the particle and will heat up the surrounding liquid eventually. With sufficient exciting optical intensity, the heat transfer from NP to liquid will undergo an explosive process and make a vapor envelop: nanobubble. We characterized the size, pressure and temperature of the nanobubble by a simple model relying on Mie calculations and continuous medium assumption. A novel effective medium method is also developed to replace the role of Mie calculations. The characterized temperature is in excellent agreement with that by Raman scattering. If fabricated in an ordered cluster, NPs exhibit double-resonance features and the double Fano-resonant structure is demonstrated to most enhance the four-wave mixing efficiency.

light harvesting

perfect absorber

surface plasmon polariton

periodic hole array

dispersion relation

Brillouin zone

degenerate perturbation splitting

nanofilm

nanobelt

subwavelength cross section

localized surface plasmon resonance

LSPR

redshift with aspect ratio

nanowire

mode area

confinement

propagation length

Figure of Merit

nanophotonics

waveguide

stimulated emission of surface plasmon

gain material

loss compensation

nanoscale heat transfer

nanobubble

Mie calculation

effective medium

near field weighting

mean field theory

Fano resonance

four-wave mixing

nanocluster

nanodisk

coherent nonlinear optics

Role of AGN feedback in galaxy evolution at high-redshift

Collet, Cédric

28 April 2014

There is growing evidence that supermassive black holes may play a crucial role for galaxy evolution, in particular during the formation of massive galaxies at high redshift (z ~ 2 - 3). Our work focuses on quantifying the effects of jets of radiogalaxies and of large bolometric luminosities of quasars on the interstellar gas in their host galaxies. To this end, we studied the kinematics of the ionized gas in 12 moderately powerful radio galaxies and 11 quasars (6 radio-loud and 5 radio-quiet) at high redshifts with rest-frame optical imaging spectroscopy obtained at the VLT with SINFONI. We searched for outflows and other signatures of feedback from the supermassive black holes in the centers of these galaxies to evaluate if the AGN may plausibly quench star formation. In our sample of moderately powerful radiogalaxies, we observe velocity dispersions nearly as large as those observed in the most powerful ones (with FWHM ~ 1000 km/s), but the quantity of ionized gas is decreased by one order of magnitude (Mion gas ~ 10^8 - 10^9 Msun) and velocity gradients tend to be less dramatic (Δv < 400 km/s), when they are observed. In our sample of quasars, we had to carefully subtract the broad spectral component of emission lines to have access to its narrow, and spatially extended, component. We detect truly extended emission line regions in 4/6 sources of our radio-loud subsample and in 1/5 source of our radio-quiet subsample. We estimate that masses of ionized gas in these sources are smaller than in our sample of high-redshift radiogalaxies (with Mion gas ~ 10^7 - 10^8 Msun) and kinematics tend to be more quiescent, akin to what is observed in local quasars. Finally, detailed observations of two outliers among our sample of high-redshift radiogalaxies revealed that one of them is closely surrounded by 14 companions galaxies, hence lying in an overdensity. We therefore interpret the presence and morphology of ionized gas around these galaxies as evidence for repeated cycles ouf AGN outbursts, akin to what can be observed in local clusters of galaxies, which are prime examples of AGN feedback in the nearby Universe.

Galaxy Evolution

High-Redshift Galaxies

Radiogalaxies

Active Galactic Nucleus

AGN Feedback

Radio Jets

Gas Kinematics and Dynamics in Galaxies

Infrared imaging spectroscopy

Instrument : SINFONI/VLT