Global ETD Search

1	Core-Collapse Supernova Remnants and Interactions with Their Surroundings Brantseg, Thomas Felton 01 July 2013 (has links) This thesis examines three core-collapse supernova remnants (SNR) - the Cygnus Loop in the Milky Way and 0453-68.5 and 0540-69.3 in the Large Magellanic Cloud - of varying ages and in varying states of interaction with the surrounding interstellar medium (ISM), using X-ray imaging spectroscopy with Chandra and supplemental data from other wavelengths. We use results from our analysis to address three main questions. First, we examine the applicability of the common Sedov-Taylor adiabatic blast wave model to core-collapse supernovae. Second, we determine the elemental abundances around the shell of these supernova remnants to determine if the use of SNRs as a gauge of abundances in the ISM is justified. Finally, we examine the pulsar wind nebulae (PWNe) in 0453-68.5 and 0540-69.3 and search for evidence of interaction between these PWNe and their immediate surroundings. We see highly inhomogeneous ISM surrounding all three surveyed SNRs, contrary to the key assumption in the Sedov-Taylor model of a uniform surrounding medium. In all three studied SNRs, we find that shock speeds are dependent on the density of the surrounding material. As subsidiary results, we also find depleted elemental abundances of oxygen, magnesium, and silicon, relative to typical ISM, around all three studied supernova remnants. Although this subsidiary result is not conclusive, we believe that it merits a followup study. In 0540-69.3 and 0453-68.5, which contain central pulsars, we find that the explosion directionality, which can be inferred from the pulsar's proper motion relative to the SNR, is not related to the morphology of the SNR itself. We conclude from this that the asymmetric shapes common in core-collapse supernova remnants can be more a function of the complex environments surrounding the progenitors of core- collapse supernovae than of the supernova explosions themselves. Finally, we see that the PWN in 0453-68.5 shows signs of having mixed with the surrounding thermal- emitting material, while the PWN in 0540-69.3 appears to have not mixed with or interacted with the surrounding SNR material to any substantial degree. We believe that this result may indicate that the degree of interaction between a PWN and its surroundings is dependent on age and possibly shell morphology, although further study is needed. ISM Pulsar wind nebulae Supernova remnants X-rays Physics
2	VERITAS observations of galactic gamma-ray sources Tsurusaki, Kazuma 01 July 2012 (has links) The main topic of this thesis is analysis of an unidentified Galactic TeV gamma-ray source, MGRO J1908+06, discovered by Milagro instrument in 2007. We analyzed 54 hours of observational data from the Very Energetic Radiation Imaging Telescope Array System (VERITAS), a ground-based gamma-ray observatory in southern Arizona comprised of an array of four Cherenkov Telescopes that reconstructs the energy and direction of astrophysical gamma-rays by imaging Cherenkov light emitted by energetic particles in air showers produced by the primary gamma-rays. MGRO J1908+06 is located between a supernova remnant SNR G40.5-0.5 and a young, energetic pulsar PSR J1907+0602. We studied the energy dependent morphology of the TeV emission from the source and measured the source extent and spectrum. The source extends well past the boundary of the SNR and is not correlated with strong radio continuum or molecular line emission which likely excludes an origin for the emission as solely due to the SNR. While emission in the 0.5-1.25 TeV band was centered around the pulsar, higher energy emission was observed near the supernova remnant. This morphology is opposite that observed in other pulsar wind nebulae. We proposed two models for the high energy emission located well away from the pulsar but close to the SNR: (1) shock acceleration at the shock front created by an interaction between the pulsar wind and the dense gas at the edge of the SNR or (2) molecular clouds around the SNR provides seed photons with energies higher than those from Cosmic Microwave Backgrounds for inverse Compton scattering. The former model can be tested by looking for molecular emission lines that trace shocks and by measuring the pulsar velocity. In addition, we investigated the gamma-ray emission from the nova explosion of V407 Cygni that occurred in March 2010. The Fermi-LAT observed this event in the energy range of E >100 MeV. The origins of the gamma-ray emission that the Fermi-LAT team proposed are either protons (hadronic model) or electrons (leptonic model), both of which were accelerated at the nova shock via the Fermi acceleration mechanism. We did not consider their leptonic model because no TeV gamma-ray emission is predicted. Their hadronic model can generate TeV gamma-rays with the modeled parameters. We found no evidence for TeV emission. We showed that with the flux upper limit calculated using the VERITAS data imposes constraints on the extension of the proton spectrum at high energies. Fermi Acceleration Gamma-ray Nova Pulsar Wind Nebulae Supernova Remnant VERITAS Physics
3	Études spectro-morphologiques et multi-longueurs d'onde des vestiges de supernova en gamma et autres sources au TeV / Spectro-morphological and multi-wavelength studies of gamma-ray supernova remnants and Galactic TeV sources Devin, Justine 26 October 2018 (has links) Dans le domaine de l’astrophysique des hautes énergies, de nombreuses questions restent à ce jour sans réponse et, parmi elles se trouve l’origine des rayons cosmiques Galactiques. La première preuve observationnelle de ces particules accélérées a été apportée au sein d’un vestige de supernova il y a seulement vingt ans. Depuis, nous savons que les vestiges de supernova, les pulsars et leurs nébuleuses accélèrent efficacement des particules mais de nombreuses interrogations subsistent encore. Les preuves directes concernant l’accélération de protons (constituant 90% du rayonnement cosmique) sont rares et de nombreuses sources nouvellement détectées en gamma sont de nature inconnue. Les rayonnements produits au sein des accélérateurs Galactiques fournissent d’importants éléments de réponse quant à la nature des particules accélérées. En particulier, alors que les domaines de la radio et des rayons X ne tracent que les électrons accélérés, les rayons gamma peuvent inférer la présence d’électrons et également de protons (et noyaux en général) mais l’émission s’avère le plus souvent difficile à interpréter.Les mesures des rayons gamma de très hautes énergies dépendent de notre connaissance de l’atmosphère terrestre, dans lequel ils se propagent avant d’être détectés par les télescopes Tcherenkov au sol tels que le réseau H.E.S.S. La partie technique de cette thèse concerne l’étude de l’impact des profils d’atmosphère sur les données H.E.S.S. Grâce à des simulations et des analyses prenant en compte les caractéristiques propres à chaque prise de données, nous étudions l’impact des profils d’atmosphère mesurés sur les fonctions de réponse de l’instrument et sur la reconstruction spectrale.Le premier objectif scientifique de cette thèse est de comprendre la nature de l’émission gamma au sein de deux vestiges de supernova (G326.3-1.8 et RX J1713.7-3946) par le biais d’analyses spectro-morphologiques détaillées. L’analyse de G326.3-1.8, avec les données du Fermi-LAT, a mené à deux résultats importants: une nouvelle preuve d’accélération de protons et la première séparation morphologique et spectrale de deux composantes imbriquées en gamma. L’analyse de RX J1713.7-3946, avec les données H.E.S.S. et les outils d'analyse Ctools, a confirmé une extension plus importante en gamma qu’en rayons X mais dont l’origine reste encore incertaine.La deuxième partie de cette thèse entreprend de discuter la nature des sources Galactiques non-associées au TeV. Pour ce faire, nous présentons un code générique visant à rechercher des contreparties multi-longueurs d’onde sur ces sources au TeV, et permettant de poser des contraintes sur des paramètres physiques tels que le champ magnétique moyen et l’indice spectral en radio. En appliquant ce code sur cinq sources non-identifiées du relevé du plan Galactique de H.E.S.S., nous apportons des arguments quant à leur origine. En particulier, nous étudions deux sources, dont l’émission au TeV provient probablement de multiples contributions, soulevant ainsi l’importance des données multi-longueurs d’onde pour comprendre la nature de l’émission en gamma. / In high energy astrophysics, several questions are still open and amongst them is the origin of Galactic cosmic rays. The first observational evidence of accelerated particles has only been revealed twenty years ago. Since then, supernova remnants, pulsars and their nebulae are known to efficiently accelerate particles but several questions still hold. In particular, evidence of accelerated protons (which consist on 90% of the cosmic-ray spectrum) is still elusive and several gamma-ray sources have unknown origin. Non-thermal emissions produced in Galactic accelerators provide insights about the nature of the accelerated particles. In particular, while radio and X-ray observations indicate the presence of accelerated electrons, gamma rays can be produced by both electrons and protons (or nuclei in general) but it may be difficult to assess the origin of the emission.The technical part of this thesis concerns the study of the impact on the reconstructed H.E.S.S. data when using atmospheric profiles measured with a lidar instead of a standard atmospheric model currently used. Very high energy gamma rays propagate into the atmosphere before reaching Cherenkov Telescopes and thus, the accuracy of our measurements depends on our understanding of the atmospheric composition. Using run-wise simulations based on lidar data, we study the impact on the instrument response functions and we analyse data to quantify the effect on the spectral reconstruction.The first scientific goal of this thesis is to understand the gamma-ray emission from two supernova remnants (G326.3-1.8 et RX J1713-3946) through detailed spectro-morphological analyses. The analysis of the composite supernova remnant G326.3-1.8, with Fermi-LAT data, has led to two major results: a new evidence of accelerated protons and the first morphological and spectral separation in gamma rays of two nested components. The study of RX J1713-3946, with H.E.S.S. data and using the Ctools package, confirms a significant gamma-ray extension beyond the X-ray emitting shell but its origin remains unclear.The second part of this thesis aims to constrain the nature of the unidentified TeV sources revealed in the H.E.S.S. Galactic Plane Survey. We thus present a generic code, based on a multi-wavelength approach, to find counterparts and estimate physical parameters like the radio spectral index and the mean magnetic field. We apply this code on five unidentified TeV sources and we put constraints on their nature. In particular, we present two high-confusion cases, for which the TeV emission is probably due to the contribution from different components, emphasizing the importance of multi-wavelength data to understand the origin of the gamma-ray emission. Vestiges de supernova Rayons gamma Multi-Longueurs d'onde Nébuleuses de pulsar Fermi-LAT H.e.s.s. Supernova remnants Gamma rays Multi-Wavelength Pulsar wind nebulae Fermi-LAT H.e.s.s.
4	Nonparametric estimation of the off-pulse interval(s) of a pulsar light curve / Willem Daniël Schutte Schutte, Willem Daniël January 2014 (has links) The main objective of this thesis is the development of a nonparametric sequential estimation technique for the off-pulse interval(s) of a source function originating from a pulsar. It is important to identify the off-pulse interval of each pulsar accurately, since the properties of the off-pulse emissions are further researched by astrophysicists in an attempt to detect potential emissions from the associated pulsar wind nebula (PWN). The identification technique currently used in the literature is subjective in nature, since it is based on the visual inspection of the histogram estimate of the pulsar light curve. The developed nonparametric estimation technique is not only objective in nature, but also accurate in the estimation of the off-pulse interval of a pulsar, as evident from the simulation study and the application of the developed technique to observed pulsar data. The first two chapters of this thesis are devoted to a literature study that provides background information on the pulsar environment and -ray astronomy, together with an explanation of the on-pulse and off-pulse interval of a pulsar and the importance thereof for the present study. This is followed by a discussion on some fundamental circular statistical ideas, as well as an overview of kernel density estimation techniques. These two statistical topics are then united in order to illustrate kernel density estimation techniques applied to circular data, since this concept is the starting point of the developed nonparametric sequential estimation technique. Once the basic theoretical background of the pulsar environment and circular kernel density estimation has been established, the new sequential off-pulse interval estimator is formulated. The estimation technique will be referred to as `SOPIE'. A number of tuning parameters form part of SOPIE, and therefore the performed simulation study not only serves as an evaluation of the performance of SOPIE, but also as a mechanism to establish which tuning parameter configurations consistently perform better than some other configurations. In conclusion, the optimal parameter configurations are utilised in the application of SOPIE to pulsar data. For several pulsars, the sequential off-pulse interval estimators are compared to the off-pulse intervals published in research papers, which were identified with the subjective \eye-ball" technique. It is found that the sequential off-pulse interval estimators are closely related to the off-pulse intervals identified with subjective visual inspection, with the benefit that the estimated intervals are objectively obtained with a nonparametric estimation technique. / PhD (Statistics), North-West University, Potchefstroom Campus, 2014 Off-pulse interval Pulsar light curve Nonparametric sequential estimation Circular statistics Circular kernel density estimation Pulsar Wind Nebulae FERMI Gamma Rays Af-pulsinterval Pulsarligkromme Sekwensiële nie-parametriese beraming Sirkulêre statistiek Sirkulêre kerndigtheidsfunksieberaming Pulsarwindnewel Gammastraal
5	Nonparametric estimation of the off-pulse interval(s) of a pulsar light curve / Willem Daniël Schutte Schutte, Willem Daniël January 2014 (has links) The main objective of this thesis is the development of a nonparametric sequential estimation technique for the off-pulse interval(s) of a source function originating from a pulsar. It is important to identify the off-pulse interval of each pulsar accurately, since the properties of the off-pulse emissions are further researched by astrophysicists in an attempt to detect potential emissions from the associated pulsar wind nebula (PWN). The identification technique currently used in the literature is subjective in nature, since it is based on the visual inspection of the histogram estimate of the pulsar light curve. The developed nonparametric estimation technique is not only objective in nature, but also accurate in the estimation of the off-pulse interval of a pulsar, as evident from the simulation study and the application of the developed technique to observed pulsar data. The first two chapters of this thesis are devoted to a literature study that provides background information on the pulsar environment and -ray astronomy, together with an explanation of the on-pulse and off-pulse interval of a pulsar and the importance thereof for the present study. This is followed by a discussion on some fundamental circular statistical ideas, as well as an overview of kernel density estimation techniques. These two statistical topics are then united in order to illustrate kernel density estimation techniques applied to circular data, since this concept is the starting point of the developed nonparametric sequential estimation technique. Once the basic theoretical background of the pulsar environment and circular kernel density estimation has been established, the new sequential off-pulse interval estimator is formulated. The estimation technique will be referred to as `SOPIE'. A number of tuning parameters form part of SOPIE, and therefore the performed simulation study not only serves as an evaluation of the performance of SOPIE, but also as a mechanism to establish which tuning parameter configurations consistently perform better than some other configurations. In conclusion, the optimal parameter configurations are utilised in the application of SOPIE to pulsar data. For several pulsars, the sequential off-pulse interval estimators are compared to the off-pulse intervals published in research papers, which were identified with the subjective \eye-ball" technique. It is found that the sequential off-pulse interval estimators are closely related to the off-pulse intervals identified with subjective visual inspection, with the benefit that the estimated intervals are objectively obtained with a nonparametric estimation technique. / PhD (Statistics), North-West University, Potchefstroom Campus, 2014 Off-pulse interval Pulsar light curve Nonparametric sequential estimation Circular statistics Circular kernel density estimation Pulsar Wind Nebulae FERMI Gamma Rays Af-pulsinterval Pulsarligkromme Sekwensiële nie-parametriese beraming Sirkulêre statistiek Sirkulêre kerndigtheidsfunksieberaming Pulsarwindnewel Gammastraal
6	Identification des accélérateurs cosmiques : recherche de nébuleuses de pulsars au GeV avec le Fermi Large Area Telescope / Cosmic ray accelerators identification : Search for pulsar wind nebulae in the GeV domain using the Fermi-Large Area Telescope. Rousseau, Romain 26 September 2013 (has links) Dédié à l’étude du ciel en rayons gamma, le satellite Fermi comporte à son bord le Large AreaTelescope (LAT), sensible au rayonnement de 20 MeV à plus de 300 GeV. Sa sensibilité et ses performances grandissantes apportent de plus en plus de contraintes sur les nébuleuses à vent de pulsar. Ces nébuleuses sont alimentées par l’injection permanente d’un vent d’électrons et de positrons relativistes accélérés par l’onde de choc délimitant la nébuleuse. Ces particules chargées rayonnent dans les différents domaines du spectre électromagnétique et notamment dans le domaine des rayons gamma à l’aide du processus de diffusion Compton inverse. Cette thèse présente l’étude morphologique et spectrale détaillée de deux sources potentiellement associées à des nébuleuses : MSH 11-62 et HESS J1857+026, afin de déterminer si l’émission gamma est produite par des nébuleuses de pulsar. Dans un deuxième temps, l’analyse de toutes les sources reliées à des contreparties détectées par les télescopes Cerenkov permet la détection de six nouvelles nébuleuses de pulsars et candidats dans la gamme de Fermi. Ceci permet d’apporter de nouvelles contraintes sur les propriétés physiques des nébuleuses de pulsar ainsi que sur les mécanismes d’émission à l’aide de modèles et d’études sur la population totale détectée par le LAT. / The Fermi Gamma-ray Space Telescope was launched on 2008 June 11, carrying the Large Area Telescope (LAT), sensitive to gamma-rays from 20 MeV to more than 300 GeV. Its constantly improving sensitivity and performance offer a new opportunity to understand the sources of the gamma-ray sky including Pulsar Wind Nebulae (PWNe). PWNe are powered by the constant injection of a relativistic wind of electrons and positrons from their central pulsars. These charged particles are accelerated at the shock front forming the PWN and emit photons which can be observed along the entire electromagnetic spectrum, including the highenergy gamma-ray domain via inverse Compton scattering.This thesis present the detailed analysis of two sources of gamma-ray emission potentially asso4021ciated to PWNe : MSH 11-62 and HESS J1857+026. The combination of the spatial and spectral analyses provide new elements to confirm these associations.In a second step, we describe a search for counterparts to sources detected by Cerenkov telescopes.This search led to the detection of six new LAT sources potentially associated with PWNe. These studies bring new insights and constraints on the physical properties of the sources as well as on emitting processes by constraining the models and allowing population studies. Astronomie gamma de haute énergie Fermi Large Area Telescope (LAT) Nébuleuses de pulsars Modélisation spectrales Études de populations Gamma-Ray Astronomy Fermi Large Area Telescope (LAT) Pulsar Wind Nebulae (PWNe) Spectral modeling Population studies
7	Millisecond pulsars and pulsar wind nebulae as sources of gamma rays and cosmic rays / C. Venter Venter, Christo January 2008 (has links) Thesis (Ph.D. (Space Physics)--North-West University, Potchefstroom Campus, 2008. General ralativistic (GR) frame dragging GR electrodynamics Millesecond pulsar visibility Non-thermal radiation processes Pair productin Pulsar wind nebulae Gamma rays Cosmic rays H.E.S.S. GLAST
8	Millisecond pulsars and pulsar wind nebulae as sources of gamma rays and cosmic rays / C. Venter Venter, Christo January 2008 (has links) Thesis (Ph.D. (Space Physics)--North-West University, Potchefstroom Campus, 2008. General ralativistic (GR) frame dragging GR electrodynamics Millesecond pulsar visibility Non-thermal radiation processes Pair productin Pulsar wind nebulae Gamma rays Cosmic rays H.E.S.S. GLAST
9	Millisecond pulsars and pulsar wind nebulae as sources of gamma rays and cosmic rays / C. Venter Venter, Christo January 2008 (has links) Thesis (Ph.D. (Space Physics)--North-West University, Potchefstroom Campus, 2008. General ralativistic (GR) frame dragging GR electrodynamics Millesecond pulsar visibility Non-thermal radiation processes Pair productin Pulsar wind nebulae Gamma rays Cosmic rays H.E.S.S. GLAST
10	Premières détections de nébuleuses avec le Fermi-Large Area Telescope et étude de leurs pulsars Grondin, Marie-hélène 02 July 2010 (has links) Dédié à l’étude de l’astronomie gamma, le satellite Fermi a été lancé le 11 juin 2008. Il comporte à sonbord l’instrument Large Area Telescope (LAT), sensible au rayonnement gamma dans la gamme d’énergie de20 MeV à 300 GeV. Bien que la nébuleuse du Crabe ait été étudiée dans la gamme d’énergie 70 MeV à 30GeV couverte par son précédesseur, l’expérience CGRO-EGRET, aucune nébuleuse n’a jamais été clairementidentiﬁée dans le domaine des rayons gamma de haute énergie jusqu’au lancement de Fermi.Les pulsars alimentent les nébuleuses qui les entourent par l’injection permanente d’un vent d’électrons etpositrons relativistes qui, accélérés au niveau de l’onde de choc délimitant les nébuleuses de pulsars, émettentun rayonnement pouvant être observé dans les différents domaines du spectre électromagnétique, et notammentdans le domaine des rayons gamma de haute énergie.Les données recueillies par le Fermi-LAT au cours des deux premières années de mission ont désormaispermis la détection et l’identiﬁcation de trois nébuleuses et de leurs pulsars associés (nébuleuses du Crabe, deVela-X et de MSH 15-52) ainsi que de la nébuleuse de pulsar HESS J1825-137 découverte par les instrumentsau sol dédiés à l’astronomie gamma de très haute énergie.Les résultats des analyses temporelle, spectrale et morphologique réalisées sur les systèmes pulsars/nébuleuses détectés par le LAT sont exposés dans ce manuscrit. La synthèse des études systématiquesréalisées (i) dans les régions comportant un pulsar émetteur en rayons gamma et (ii) dans les régions comportant une source émettrice de rayons gamma de très haute énergie étant identiﬁée en tant que nébuleuse depulsar ou candidate en tant que telle, sont également présentés dans cette thèse. Ces études apportent de nouvelles contraintes sur les propriétés physiques des sources ainsi que sur les mécanismes de rayonnement mis enjeu dans la magnétosphère des pulsars et au sein de leurs nébuleuses. / The Fermi Gamma-ray Space Telescope was launched on 2008 June 11, carrying the Large Area Telescope(LAT), sensitive to gamma-rays in the 20 MeV – 300 GeV energy range. The Crab Nebula had been detectedand studied in the 70 MeV – 30 GeV band using the CGRO-EGRET experiment, but no pulsar wind nebula(PWN) had ever been ﬁrmly identiﬁed in the high energy gamma-ray domain.PWNe are powered by the constant injection of a relativistic wind of electrons and positrons from theircentral pulsars. These charged particles are accelerated at the shock front forming the PWN and emit photons which can be observed along the entire electromagnetic spectrum, including the high energy gamma-raydomain.Data provided by the Fermi-LAT during the ﬁrst two years of the mission have allowed the detection andthe identiﬁcation of three PWNe and their associated pulsars (Crab Nebula, Vela X and MSH 15-52) as well asthe PWN HESS J1825-137 discovered by ground-based experiments sensitive to very high energy gamma-rays.Results of temporal, spectral and morphological analyses of the pulsar/PWN systems detected by Fermi-LAT, as well as results of systematic studies performed (i) around every gamma-ray pulsar detected by the LATand (ii) around every very high energy source identiﬁed as a PWN or a PWN candidate are presented in thisdissertation. These studies bring new insights and constraints on the physical properties of the sources as wellas on emitting processes in pulsar magnetospheres and in PWNe. Astronomie gamma de haute énergie Fermi Large Area Telescope (LAT) Pulsars Nébuleuses de pulsars Modélisation spectrale High energy gamma-ray astronomy Fermi Large Area Telescope (LAT) Pulsars Pulsar wind nebulae (PWNe) Spectral modeling

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