Global ETD Search

121	Étude sous-millimétrique de l’interaction entre le magnétisme et la turbulence dans les milieux interstellaires Coudé, Simon 08 1900 (has links) No description available. Polarimétrie Nuages moléculaires Protoétoiles Flots moléculaires Contamination moléculaire Orion A Barnard 1 CB 68 Noyaux galactiques actifs Quasars Polarimetry Molecular clouds Protostars Molecular outflows Molecular contamination Active galactic nuclei
122	Influence du trou noir supermassif central dans l’amas de galaxies MACS J1447.4+0827 Latulippe, Myriam 07 1900 (has links) No description available. Amas de galaxies Galaxies Milieu intra amas Noyaux actifs de galaxies Trou noirs Rayons X Radio Jets Cavités Mini-halos Galaxy clusters Intracluster Medium Active galactic nuclei Black Holes X-ray Cavities
123	Modelling radio galaxies in the Millennium simulation: SKA/MeerKAT sources and CMB contaminants Ramamonjisoa, Fidy Andriamanankasina January 2010 (has links) Magister Scientiae - MSc / We investigate the modelling of radio galaxies within a semi-analytic framework in the Millennium Simulation of the Virgo Consortium. The aim is to assess the radio sources contamination of Sunyaev-Zeldovich (SZ) signatures of clusters of galaxies in Cosmic Microwave Background (CMB) experiments. The modelling is also relevant to the Karoo Array Telescope (MeerKAT) and the Square Kilometre Array (SKA) science. The semi-analytical model consists of N-body simulation, the Millennium Run to trace the merger history of dark matter haloes within the Λ Cold Dark Matter (ΛCDM) cosmology and a follow up of the black hole accretion history and Active Galactic Nuclei (AGN) evolution. We study the growth of the supermassive black hole (SMBH) in galaxy centres and determine the black hole mass accretion conversion into radiation. We identify a model which matches observed radio luminosity function. We describe a model of observed sample of radio surveys at a given frequency and a flux density limit to obtain a model of radio luminosity function (space density of radio sources as a function of redshift) that we compare with our simulated data. We determine the redshift distribution of radio galaxies (FRI), blazars and radio quasars (FRII) in the simulation. We focus the modelling on flat spectrum population of blazars since their jets are collimated towards us and thus constitute the most potential contaminants of the CMB. We determine the spatial and density distribution of radio sources in clusters with a virial mass Mvir 2 1014h−1M and then compute the temperature fluctuations and fluxes produced by these cluster radio sources. Our main results include: the model provides a reasonable match within uncertainties with the model obtained by Dunlop & Peacock (1990) [39] using their best fit of radio luminosity function at redshift z . 0:3. The model underestimates the number of radio sources at high redshift z & 1. Radio sources are concentrated around the centre of clusters with a maximum density at r . 0:1r200 where r200 is the radius within which the density is 200 times the critical density. Radio sources are more concentrated in low mass clusters. The model predicts a surface density profile of radio sources with luminosity P 1023 W.Hz−1 at 1.4 GHz (z . 0:06) in agreement with that of Lin & Mohr (2007) [58] at r . 0:1r200 but underestimates the density in the outskirts of the clusters. BL Lacs and FRI radio galaxies produce non negligible contamination at redshift z . 0:1. They produce a mean temperature fluctuation 4:5 K at redshift z 0:01 which can be at the same level as the kinetic SZE signal produced by the cluster. Blazars constitute potential contaminant of the thermal SZ effect at redshift z 1:0 and z 1:5 at 145 GHz where they produce a mean temperature 300 K - 350 K for an average mass of the cluster. / South Africa Active galactic nuclei Cosmic microwave background Semi-analytic model N-body simulation Radio luminosity function Spectral energy distribution Accretion efficiency Radio mode accretion Quasar mode accretion Sunyaev-Zeldovich effect
124	Analyse optique à très haute résolution spectrale de la galaxie NGC 1275 Vigneron, Benjamin 08 1900 (has links) Les galaxies centrales d'amas de galaxies constituent un environnement particulier pouvant parfois être entouré, dans le domaine optique, d'un système filamentaire complexe et étendu. L'étude de ces structures permet de mieux comprendre le phénomène de rétroaction impliqué au sein de ces galaxies et lié à la présence d'un trou noir supermassif en leur centre. La formation de jets et de bulles remplis d'émission radio conduit à réchauffer et sculpter le milieu intra-amas environnant. Ce réchauffement empêche ainsi le refroidissement du gaz intra-amas et donc la formation stellaire. Les filaments visibles dans le domaine optique ne constituent qu'une partie de la structure multiphasique qui entoure la galaxie centrale d'amas. En effet, plusieurs observations en rayons X du gaz intra-amas et radio du gaz moléculaire montrent clairement des corrélations spatiales entre toutes ces types d'émissions. Néanmoins, plusieurs points restent encore incertains concernant ces nébuleuses filamentaires. Deux modèles principaux s'opposent ainsi pour tenter d'expliquer l'origine de leur formation et le phénomène d'ionisation du gaz n'est toujours pas déterminé avec certitude. Dès lors, l'étude de la nébuleuse filamentaire entourant la galaxie centrale de l’amas de Persée, NGC 1275, au moyen d'observations à très haute résolution spectrale à l'aide de l'instrument SITELLE (Spectromètre imageur à transformée de Fourier pour l’étude en long et en large de raies d’émission), se révèle fondamentale. Ce spectromètre imageur à transformée de Fourier installé au télescope Canada-France-Hawaï dispose de caractéristiques exceptionnelles nous permettant d'étudier la nébuleuse filamentaire de NGC 1275 dans son entièreté. En effet, le champ de vue extrêmement large de SITELLE ($11' \times 11'$) ainsi que sa capacité d'atteindre de très hautes résolutions spectrales en font un atout de choix pour l'étude de telle structure. Dans ce mémoire, nous avons analysé de nouvelles observations de NGC 1275 obtenues avec SITELLE, à une très haute résolution spectrale de $R = \lambda/\Delta\lambda = 7000$. L'analyse de ces observations a permis de renouveler les cartes de vitesse, flux et dispersion en vitesse au sein de la nébuleuse filamentaire, démontrant ainsi que la région centrale semble plus dynamique qu'anticipée auparavant. De plus, grâce à la très haute résolution spectrale atteinte au sein de ces données, une analyse détaillée des raies d'émission de [SII] a pu être menée, révélant dès lors plus d'informations sur la densité du gaz au sein des filaments. L'étude de ratio de raies permet également de mieux cerner le mécanisme d'ionisation ayant lieu au sein de cette structure. Finalement, cette étude de données à très haute résolution spectrale des filaments permettra à terme d'obtenir les diagrammes BPT offrant ainsi une meilleure compréhension du phénomène d'ionisation. Une étude sera également menée sur les multiples composantes en vitesse visible localement dans la région centrale des filaments et pouvant être résolues. Enfin, ces données serviront de base pour les futures observations en rayon X de l'instrument XRISM (\textit{X-Ray Imaging and Spectroscopy Mission}). / The central cluster galaxies constitute a particular environment that can sometimes be surrounded, in the optical domain, by a complex and extended filamentary system. The study of these structures makes it possible to better understand the feedback phenomenon involved within these galaxies and linked to the presence of a supermassive black hole in their center. The formation of jets, streams and bubbles filled with radio emissions that it entails leads to heating and sculpting the surrounding intra-cluster medium. This heating thus prevents the cooling of the gas by emission and therefore the formation of stars. Thus, the filaments visible in the optical domain are only part of the multiphase structure that surrounds the central cluster galaxy. Indeed, several X-ray and radio observations clearly show spatial correlations between all these types of emissions. Nevertheless, several points still remain uncertain concerning filamentary nebulae. Two main models thus oppose each other in an attempt to explain the origin of their formation, either through precipitation or lifted up in the wake of radio bubbles, and the phenomenon of gas ionization is still not determined with certainty. Therefore, the study of the filamentary nebula surrounding the central cluster galaxy of the Perseus cluster, NGC 1275, by means of very high spectral resolution observations using the SITELLE instrument (Spectromètre imageur à transformée de Fourier pour l’étude en long et en large de raies d’émission), can yield fundamental results that will shed light on the origin and evolution of these filamentary nebulae. SITELLE is a Fourier transform imaging spectrometer installed at the Canada-France-Hawaii telescope that has exceptional characteristics allowing us to study the filamentary nebula of NGC 1275 in its entirety. Indeed, the extremely wide field of view of SITELLE ($11' \times 11'$) as well as its capacity to reach very high spectral resolutions make it an instrument of choice for the study of such structures. Here, we present the analysis of new observations of NGC 1275 taken with SITELLE at very high spectral resolution of $R = \lambda/\Delta\lambda = 7000$. The analysis of these observations has thus made it possible to produce new maps of velocity, flux and velocity dispersion within the filamentary nebula, thus demonstrating that the central region seems more dynamic than previously anticipated. In addition, thanks to the very high spectral resolution achieved within these data, a detailed analysis of the emission lines of [SII] could be carried out, revealing more information on the density of the gas within the filaments. The study of line ratios also makes it possible to better understand the ionization mechanism taking place within this structure. Finally, this study of very high spectral resolution data from the filaments will ultimately make it possible to obtain BPT diagrams, thus offering a better understanding of the ionization phenomenon. The multiple velocity components, locally visible and resolved in the central region of the filaments, will also be studied. Finally, these data will serve as a basis for future X-ray observations from the XRISM (\textit{X-Ray Imaging and Spectroscopy Mission}) instrument. amas de galaxies galaxies noyaux actifs de galaxies nébuleuse filamentaire trou noir supermassif astronomie optique galaxy clusters galaxies active galactic nuclei filamentary nebula supermassive black hole optical astronomy Fourier transform spectro-imaging
125	Search for extremely short transient gamma-ray sources with the VERITAS observatory Skole, Christian 27 September 2016 (has links) In der Astronomie zeigen viele Quellen ein veränderliches Verhalten, das in manchen Fällen sehr kurz sein und im Bereich von Sekunden bis Minuten liegen kann. Beispiele dafür sind Gammablitze (GB) und aktive Galaxienkerne (AGK). Um die zugrundeliegenden physikalischen Prozesse besser zu verstehen, ist eine Messung der Photonenflussänderung notwendig. Allerdings kann die Entdeckung sehr kurzzeitiger Ausbrüche im sehr hochenergetischen Bereich des Spektrums, für welche Cherenkov Teleskope, wie VERITAS, zum Einsatz kommen, schwierig sein. Die Ursache dafür ist der hohe Untergrund und die relativ niedrige Signalrate. Diese Arbeit behandelt die Implementierung fortschrittlicher und für die Entdeckung signifikanter Ratenänderung optimierter, statistischer Methoden (exp-test and Bayesian-Blocks) innerhalb der VERITAS-Analyse. Das Verhalten dieser Methoden wird anhand von Daten minutenlanger Ausbrüche, die mittels Monte-Carlo-Technik für zwei unterschiedliche VERITAS Stadien simuliert wurden (vor und nach der Hardware-Aufrüstung), bewertet und miteinander verglichen. Die fortschrittlichen Methoden verbessern die Empfindlichkeit bei der Entdeckung von kurzzeitigen Ausbrüchen, wenn deren Fluss den des Krebsnebels übersteigt (Krebsnebel-Einheit = K.E.). Es sind nun Ausbrüche von 2 K.E. selbst dann nachweisbar, wenn deren Dauer nur 100 Sek. beträgt. Dies ist mit der Standardmethode nicht möglich. Im darauffolgenden Schritt dieser Arbeit werden das Nachglühen von 6 GB sowie die 450, ebenfalls mit VERITAS erzeugten, Aufnahmen von AGK-Quellen mittels der fortschrittlichen Methoden analysiert. In keiner der AGK-Aufnahmen wird eine signifikante Entdeckung kurzzeitiger Variabilität gemacht, was mit den anerkannten AGK-Modellen übereinstimmt. Auch die Untersuchung des Nachglühens der 6 GB offenbart keine kurzen Ausbrüche im GeV-TeV Bereich. Jedoch ist es für 2 von ihnen möglich, ein oberes Flusslimit von 1.25 K.E. (3,7 · 10^(−10) erg/(cm^2s) [0,1;10 TeV]) abzuschätzen. / In astronomy, many of the observed sources show a transient behavior. Examples are gamma-ray bursts (GRBs) and active galactic nuclei (AGN). For those source types the variability can be very short, in the order of seconds to minutes. Measuring the flux variations is necessary to understand the underlying physical processes responsible for the emission. However, the detection of very short flares can be difficult in the very high-energy range, in which imaging atmospheric Cherenkov telescopes like VERITAS are operating. This is due to the large background and the comparable low signal rates. This thesis discusses the implementation of advanced statistical methods (exp-test and Bayesian-Blocks) into the VERITAS analysis framework, that are optimized for the detection of significant variations in the event rate. The performance of these methods is evaluated and compared by using Monte Carlo simulations of minute scale flares for two different VERITAS states, pre- and post-hardware-upgrade. It is shown that the advanced methods can improve the detection sensitivity for short flares with high fluxes of more than the Crab flux (Crab unit = C.U.). For example, flares at 2 C.U. with short durations down to 100 sec are now detectable, which is not possible with the standard method. In the next step of this thesis, 6 GRB afterglows and 450 runs of AGN data, observed by VERITAS, are analyzed with the advanced methods. In none of the AGN runs a significant detection of short time variability is made, which is in consistence with the canonical AGN models. The investigation of the 6 GRB afterglows also did not reveal any short flares in the GeV-TeV range. However, for two of them it was possible to estimate an upper flux limit of 1.25 C.U. (3,7 10^(−10) erg/(s*cm^2) [0,1;10 TeV]). Variabilität Statistik Gammastrahlenastronomie atmosphärische Cherenkov Technik Gammastrahlenausbrüche aktive galaktische Kerne variability statistics active galactic nuclei gamma-ray astronomy atmospheric Cherenkov technique gamma-ray-bursts 530 Physik 29 Physik, Astronomie US 1670 ddc:530
126	Observations and modeling of the active galactic nucleus B2 1215+30 together with performance studies of the ground-based gamma-ray observatories VERITAS and CTA Prokoph, Heike 07 November 2013 (has links) Das Gebiet der bodengebundenen Gamma-Astronomie bietet Zugang zu Photonen im TeV-Energiebereich und hat sich in den letzten Jahrzehnten vor allem durch den Erfolg der abbildenden atmosphärischen Cherenkov-Technik profiliert. In dieser Arbeit werden zwei dieser Cherenkov-Teleskop-Systeme, VERITAS und das zukünftige CTA, mit Hilfe von Monte-Carlo-Simulationen in Hinblick auf deren Sensitivität auf hochenergetische Gammastrahlung (E > 50 GeV) untersucht. Besonderes Augenmerk wird hierbei auf die Beobachtungsmöglichkeit mit CTA unter Mondlicht gelegt. Es wird gezeigt, dass dadurch eine Beobachtungszeitverlängerung um etwa 30% ohne signifikante Sensitivitätsverluste erreicht werden kann, was besonders wichtig für zeitlich variable Quellen ist. Eine dieser variablen Quellklassen sind aktive Galaxienkerne, welche zur Zeit etwa ein Drittel der bekannten hochenergetischen Gammastrahlungsquellen repräsentieren. Die meisten davon sind Blazare, deren Emission durch nicht-thermische Strahlung aus gebündelten Strömen von Materie und Energie (sogenannten Jets) dominiert wird. Diese Jets breiten sich mit annähernd Lichtgeschwindigkeit aus und sind in Sichtlinie des Betrachters ausgerichtet. Der Blazar B2 1215+30 wurde zwischen 2008 und 2012 mit VERITAS fast 100 Stunden beobachtet. Die Datenanalyse, welche in dieser Arbeit präsentiert wird, weist die Quelle mit einer Signifikanz von neun sigma nach und offenbart Langzeitvariabilität mit einem hellen Flusszustand im Jahr 2011. Multi-Wellenlängen-Daten werden verwendet um die spektrale Energieverteilung von B2 1215+30 zu konstruieren, welche gut mit einem leptonischen Ein-Zonen-Modell beschrieben werden kann. Das verwendete Modell wird im Detail vorgestellt und mögliche Einschränkungen an den Modellparameterraum untersucht. Die Ergebnisse der Modellierung von B2 1215+30 werden diskutiert und in Zusammenhang mit anderen bekannten hochenergetischen Gammastrahlen-Blazaren gesetzt. / Ground-based gamma-ray astronomy, which provides access to photons in the TeV energy range, has been a rapidly developing discipline over the past decades. In this thesis, the performance of the current- and next-generation imaging atmospheric Cherenkov telescopes VERITAS and CTA is evaluated using Monte Carlo simulations. Special emphasis is given to the possible extension of the duty cycle of CTA. It is shown that an increase of about 30% in observation time can be achieved through operation under partial moonlight without significant losses in performance. The increased observation time is especially important when studying astronomical objects which are variable at very high energies (VHE; E>50 GeV), such as active galactic nuclei (AGN), as this allows the extension of monitoring or multi-wavelength campaigns on these occasionally flaring sources. AGN represent to date about one third of the population of known VHE gamma-ray sources. Most of them are blazars, whose emission is dominated by non-thermal radiation of relativistic jets closely aligned to the line of sight of the observer. The blazar B2 1215+30 has been observed by VERITAS for nearly 100 hours between 2008 and 2012. The data analysis presented in this thesis yields a detection significance of 9.0 sigma and shows long-term variability with a relatively bright flux state in 2011. Multi-wavelength data are used to construct the spectral energy distribution of B2 1215+30 which is well described by a one-zone leptonic model. The model is presented in detail and possible constraints are investigated. The results of the modeling are discussed and put in context with other VHE-detected blazars. Gamma-Astronomie nicht-thermische Strahlung aktive Galaxienkerne Cherenkov-Teleskop-Systeme Gamma-ray astronomy non-thermal radiation active galactic nuclei Cherenkov telescopes systems 530 Physik 29 Physik, Astronomie UK 7800 US 1670 ddc:530
127	Blazars as Sources of Neutrinos and Ultra-high-energy Cosmic Rays Rodrigues, Xavier 23 October 2019 (has links) Der Ursprung ultra-hochenergetischer kosmischer Strahlung (UHECRs) ist immer noch unbekannt. Neutrinoteleskope wie IceCube messen einen Fluss hochenergetischer astrophysikalischer Neutrinos, dessen erwarteter Ursprung Wechselwirkungen kosmischer Strahlung (CR) ist. Jedoch scheinen die Ankunftsrichtungen der beobachteten Neutrinos nicht signifikant mit den Koordinaten bekannter, hochenergetischer astrophysikalischer Quellen zu korrelieren. Wir tragen zum Verständnis dieses Problems durch die Untersuchung von Blazaren, eine Klasse aktiver Galaxienkerne, bei. Motiviert durch Hinweise, dass ein Teil der UHECRs schwerer als Protonen ist, modellieren wir die Wechselwirkungen einer Population beschleunigter Kerne mit den umgebenden Photonfelder in Blazaren. Wir folgern, dass in Blazaren niedriger Luminosität beschleunigte CRs nicht effizient wechselwirken. In hellen Blazaren sind photo-hadronische Wechselwirkungen effizient, was zu starker Neutrinoproduktion und zur Entwicklung einer nuklearen Kaskade führt. Wir berechnen die Neutrinoemission der gesamten Verteilung von Blazaren, und folgern, dass eine Population niedriger Luminosität, die derzeit nicht beobachtet, aber theoretisch erwartet wird, den gesamten IceCube-Fluss bei den höchsten Energien erklären kann. Weiterhin modellieren wir den Blazar TXS 0506+056, aus dessen Richtung ein Neutrino während einer Phase erhöhter elektromagnetischer Aktivität detektiert wurde. Wir testen die Hypothese, dass ein Signal von 13+/-5 Neutrinos, die in IceCube aus der selben Richtung im Jahr 2014-15 gemessen wurden, von der selben Quelle stammt. Unser Modell kann höchstens 5 Ereignisse erklären. Schließlich untersuchen wir das erste beobachte Ereignis verschmelzender Neutronensterne, GW170817, als CR-Beschleuniger. Wir modellieren die Quelle und zeigen, dass Radio- und Röntgenmessungen strikte Beschränkungen der magnetischen Feldstärke nach sich ziehen. Wir zeigen, dass diese Quelle in der Lage ist, CRs zu emittieren. / The origin of ultra-high-energy cosmic rays (UHECRs) is still unclear. Neutrino telescopes like IceCube have observed a flux of high-energy cosmic neutrinos, expected to originate in cosmic ray (CR) interactions. However, their arrival directions do not statistically correlate with the positions of known high-energy astrophysical sources. In this thesis we explore blazars, a class of active galaxies, as potential UHECR accelerators. Motivated by evidence that a fraction of the UHECRs are heavier than protons, we model the interactions of CR nuclei with the photon fields present in blazars, in order to estimate the emitted neutrino and UHECR spectrum. We conclude that in dim blazars, accelerated CRs do not interact efficiently due to the low photon density, but instead escape the source unscathed. In bright blazars, photo-hadronic interactions are more efficient, leading to abundant production of neutrinos and lighter nuclei. We use this model to quantify the neutrino emission from the entire cosmological blazar population. We conclude that low-luminosity blazars currently unobserved but expected theoretically, can explain the entire IceCube flux at the highest energies. We then focus on blazar TXS 0506+056, from whose direction a neutrino was recently detected during an electromagnetic flaring state. We test the hypothesis that a signal of 13+/-5 neutrinos observed by IceCube from the same direction in 2014-15 may have originated in the same source. Given the constraints from multi-wavelength observations, this model can explain at most 5 neutrino events. Finally, we study the remnant of the first neutron star merger ever observed, object GW170817. We model the particle interactions in the source and show that multi-wavelength observations can provide a constraint on the magnetic field strength. We estimate that this source may be an efficient CR emitter, which shows the importance of future multi-messenger observations to better constrain this source type. Neutrinos kosmische Strahlung aktive Galaxienkerne IceCube-Experiment neutrinos cosmic rays active galactic nuclei IceCube blazars 530 Physik US 1670 UO 9500 ddc:530 ddc:520
128	Observations multi-longueur d’onde d’amas et de groupes de galaxies proches Gendron-Marsolais, Marie-Lou 07 1900 (has links) No description available. Amas et groupes de galaxies Galaxies Noyaux actifs de galaxies Milieu intra-amas et intra-groupe Astronomie rayon X Radio astronomie Jets Cavities Mini-halos Trous noirs supermassifs Galaxy clusters and groups Active galactic nuclei Intracluster and intragroup medium X-ray astronomy Radio astronomy Fourier transform spectroscopy Cavités Supermassive black holes
129	Variability analysis of a sample of potential southern calibration sources Hungwe, Faith January 2009 (has links) A considerable number of Very Long Baseline Interferometry (VLBI) surveys have been conducted in the northern hemisphere and very few in the southern hemisphere mostly because of a lack of telescopes and therefore adequate baseline coverage. Thus there is a deficit of calibrator sources in the southern hemisphere. Further, some of the most interesting astronomical objects eg. the galactic centre and the nearest galaxies (the small and large Magellanic Clouds) lie in the southern hemisphere and these require high resolution studies. With a major expansion of radio astronomy observing capability on its way in the southern hemisphere (with the two SKA (Square Kilometre Array) precursors, meerKAT (Karoo Array Telescope) and ASKAP (Australian SKA Pathfinder), leading to the SKA itself) it is clear that interferometry and VLBI in the southern hemisphere need a dense network of calibration sources at different resolutions and a range of frequencies. This work seeks to help redress this problem by presenting an analysis of 31 southern sources to help fill the gaps in the southern hemisphere calibrator distribution. We have developed a multi-parameter method of classifying these sources as calibrators. From our sample of 31 sources, we have 2 class A sources (Excellent calibrators), 16 class B sources (Good calibrators), 9 class C sources (Poor calibrators) and 4 class D sources (Unsuitable calibrators). Southern sky (Astronomy) Radio sources (Astronomy) Active galactic nuclei Very Long Baseline Array (Telescopes) Calibration Radio telescopes -- Southern Hemisphere Radio astronomy -- Southern Hemisphere Radio interferometers Very long baseline interferometry Radio astronomy -- Observations Radio astronomy -- South Africa Radio telescopes -- South Africa Square Kilometer Array (Spacecraft)
130	Gamma-ray flux variation studies from the blazar B2 1215+30 with the Fermi-LAT and the Crab Nebula with the H.E.S.S. experiment / Étude de la variabilité temporelle de l'émission gamma du blazar B2 1215 + 30 avec Fermi-LAT et de la Nébuleuse du Crabe avec le réseau de télescopes H.E.S.S. Zefi, Floriana 18 October 2017 (has links) Les expériences actuelles en astronomie gamma sont le satellite Fermi-LAT et les expériences au sol tel que H.E.S.S., VERITAS et MAGIC. La surveillance des sources d’énergie très élevées indique une physique diversifiée. Afin d’étudier la forme la plus énergétique de radiation et les phénomènes les plus violents qui se déroulent dans l’Univers, l’analyse des sources individuelles est importante. Les BL Lac, un type de galaxie active, constituent la classe de source extragalactique la plus abondante détecté dans les énergies du GeV au TeV, tandis que le nébuleuses de vent de Pulsar sont la classe la plus peuplée dans le plan galactique. Ces deux types de sources ont des émissions variables de rayons gamma.Dans cette thèse, la variabilité de l'objet BL Lac B2 1215 + 30 est étudiée avec les données du satellite Fermi-LAT. Une grande variation de flux, détectée par Fermi-LAT en février 2014, est simultanée avec un éruption très lumineux observé au TeV par l'expérience VERITAS. En collaboration avec la collaboration VERITAS, la variabilité du flux de rayons gamma a été utilisée pour établir des contraintes sur la taille de la région d'émission et sur le facteur Doppler. La variabilité à long terme, en utilisant près de neuf ans de données de Fermi-LAT de 100 MeV jusqu'à 500 GeV, a permis de détecter plusieurs flares. L'étude de la variabilité du flux indique un comportement quasi périodique avec une période de jours.Ensuite, la variabilité du flux de l’un des objets les plus étudié, la Nébuleuse du Crabe, au TeV est étudiée avec dix ans d'observation de l'expérience H.E.S.S. Le spectre de la nébuleuse du crabe est mesuré de 280 GeV jusqu'à 62 TeV. Ceci est la première mesure qui s'étend à ces très hautes énergies. Considérée comme une “chandelle standard” en astronomie gamma, la nébuleuse du crabe est une source utilisée pour l'étalonnage et l'étude des instruments. L’observation de variations du flux au GeV par le satellite Fermi-LAT a par conséquent été une découverte inattendue. Ces variations de flux au GeV ont motivé la recherche de variations de flux au TeV en utilisant les données de l'expérience H.E.S.S. La position de la nébuleuse de crabe dans l'hémisphère nord et la localisation de H.E.S.S. en Namibie rendent cette enquête complexe en raison des importantes erreurs systématiques introduites par des conditions d'observation non optimales. Le travail sur la nébuleuse du crabe montre que la prise en compte de la transparence atmosphérique pour l'étude de l'évolution du flux avec le temps résulte en une réduction des effets systématiques. Aucune variation de flux n'a été observée à des énergies supérieures à 1 TeV dans les données de H.E.S.S. I. Une autre variation de flux au GeV signalée par le Fermi-LAT en octobre 2016 par télégramme astronomique, a été étudiée avec H.E.S.S. II. Cette analyse a montré que le GeV éruption a duré pendant un mois, et le flux avec H.E.S.S. a une variance excessive de 15 %. Cela devrait être comparé à l'incertitude systématique de 20 % fréquemment citée par H.E.S.S. / The current state-of-the-art experiments in gamma-ray astronomy are the Fermi-LAT in space and the ground-based H.E.S.S., VERITAS and MAGIC experiments. The monitoring of the very-high-energy gamma-ray emitting sources indicates the diverse physics taking place in astrophysical environments. To study the most energetic form of radiation and the most violent phenomena taking place in the Universe, individual source analyses are important. BL Lac objects, a subcategory of active galaxies, are the most abundant source class detected both in the GeV andTeV energies, while pulsar wind nebulae represent the most numerous identified source class in the galactic plane. Both source classes exhibit gamma-ray flux variations.In this thesis, the gamma-ray variability of the BL Lac object B2 1215+30 is presented with Fermi-LAT data. A bright flare, with 16 times the average quiescent flux, was detected in February 2014.In collaboration with the VERITAS experiment, the gamma-ray variability was investigated over five decades in energy. This work resulted in the detection of a luminous flare, seen simultaneously in GeV and TeV energies by both instruments. These results were used to set constraints on the size of the emission region and on the Doppler factor of the relativistic jet. Additionally, the long-term variability was studied using nine years of Fermi-LAT data. This brought out new flux enhancements, which characterize the long-term lightcurve from 100 MeV up to 500 GeV. Other striking characteristics are a steady linear increase of the yearly average flux, together with a hardening of the spectral index. The investigation of the light curve indicates a hint of quasi-periodic behavior with a period of around 1083±32 days.This work includes spectrum and flux variability studies for the well-studied but ever-surprising Crab Nebula at TeV energies with more than a decade of H.E.S.S. observations. The spectrum measured in this work goes from 280 GeV to 62 TeV, making this the first measurement tha textends to such very-high-energies. Considered as a standard candle for ground-based gamma-ray astronomy, the Crab Nebula is also used for calibration and instrument studies. The detection of GeV flares by the Fermi-LAT were unexpected and motivated the search of flux variations at TeVenergies with the H.E.S.S. experiment. The position of the Crab Nebula in the northern hemisphere makes this investigation challenging due to the large systematic uncertainties introduced by the non-optimal observation conditions. This work showed that the systematic uncertainties can be reduced by taking into account the atmospheric transparency. No flux variations were found at energies above 1 TeV from the H.E.S.S. I data. A flare reported by the Fermi-LAT in October 2016 was also investigated. This analysis showed the GeV flare lasting for one month, while the flux withH.E.S.S. II had an excess variance of 15 %. This should be compared to the commonly quoted 20% systematic uncertainty by H.E.S.S. experiment. Astronomie gamma Nébuleuse du Crabe B2 1215+30 Nébuleuse du vent pulsar Noyaux actifs de galaxies Blazars Variabilité du flux H.E.S.S. expérience Satellite Fermi-LAT Gamma-ray astronomy Crab Nebula B2 1215+30 Pulsar wind nebula Active galactic nuclei Blazar Gamma-ray flux variability H.E.S.S. experiment Fermi-LAT satellite

Search results