Global ETD Search

491	Le fond gravitationnel stochastique : méthodes de détection en régimes non-Gaussiens / Stochastic gravitational wave background : detection methods in non-Gaussian regimes Martellini, Lionel 23 May 2017 (has links) Les méthodes standard de détection du fond gravitationnel stochastique reposent sur l'hypothèse simplificatrice selon laquelle sa distribution ainsi que celle du bruit des détecteurs sont Gaussiennes. Nous proposons dans cette thèse des méthodes améliorées de détection du fond gravitationnel stochastique qui tiennent compte explicitement du caractère non-Gaussien de ces distributions. En utilisant un développement d'Edgeworth, nous obtenons dans un premier temps une expression analytique pour la statistique du rapport de vraisemblance en présence d'une distribution non Gaussienne du fonds gravitationnel stochastique. Cette expression généralise l'expression habituelle lorsque le coefficient de symétrie et le coefficient d'aplatissement de la distribution du fond stochastique sont non nuls. Sur la base de simulations stochastiques pour différentes distributions symétriques présentant des queues plus épaisses que celles de la distribution Gaussienne, nous montrons par ailleurs que le 4eme cumulant peut-être estimé avec une précision acceptable lorsque le ratio signal à bruit est supérieur à 1%, ce qui devrait permettre d'apporter des contraintes supplémentaires intéressantes sur les valeurs de paramètres issus des modèles astrophysiques et cosmologiques. Dans un deuxième temps, nous cherchons à analyser l'impact sur les méthodes de détection du fond gravitationnel stochastique de déviations par rapport à la normalité dans la distribution du bruit des détecteurs. / The new generation of interferometers should allow us to detect stochastic gravitational wave backgrounds that are expected to arise from a large number of random, independent, unresolved events of astrophysical or cosmological origin. Most detection methods for gravitational waves are based upon the assumption of Gaussian gravitational wave stochastic background signals and noise processes. Our main objective is to improve the methods that can be used to detect gravitational backgrounds in the presence of non-Gaussian distributions. We first maintain the assumption of Gaussian noise distributions so as to better focus on the impact of deviations from normality of the signal distribution in the context of the standard cross-correlation detection statistic. Using a 4th-order Edgeworth expansion of the unknown density for the signal and noise distributions, we first derive an explicit expression for the non-Gaussian likelihood ratio statistic, which is obtained as a function of the variance, but also skewness and kurtosis of the unknown signal and noise distributions. We use numerical procedures to generate maximum likelihood estimates for the gravitational wave distribution parameters for a set of symmetric heavy-tailed distributions, and we find that the fourth cumulant can be estimated with reasonable precision when the ratio between the signal and the noise variances is larger than 1%, which should be useful for analyzing the constraints on astrophysical and cosmological models. In a second step, we analyze the efficiency of the standard cross-correlation statistic in situations that also involve non-Gaussian noise distributions. Relativité générale Ondes gravitationnelles Fond stochastique Non-Gaussien General relativity Gravitational waves Stochastic background Non-Gaussian
492	Chaos v pohybu kolem černých děr / Chaotic Motion around Black Holes Suková, Petra January 2013 (has links) As a non-linear theory of space-time, general relativity deals with interesting dynamical systems which can be expected more prone to chaos than their Newtonian counter-parts. In this thesis, we study the dynamics of time- like geodesics in the static and axisymmetric field of a Schwarzschild black hole surrounded, in a concentric way, by a massive thin disc or ring. We reveal the rise (and/or decline) of geodesic chaos in dependence on parameters of the sys- tem (the disc/ring mass and position and the test-particle energy and angular momentum), (i) on Poincaré sections, (ii) on time series of position and their power spectra, (iii) by applying two simple yet powerful recurrence methods, and (iv) by computing Lyapunov exponents and two other related quantifiers of or- bital divergence. We mainly focus on "sticky" orbits whose different parts show different degrees of chaoticity and which offer the best possibility to test and compare different methods. We also add a treatment of classical but dissipative system, namely the evolution of a class of mechanical oscillators described by non-standard constitutive relations.
493	Chaos v polích deformovaných černých děr / Chaos in deformed black-hole fields Witzany, Vojtěch January 2015 (has links) The consequences of two key approximations of accretion-disc physics near black holes are studied in this thesis. First, the question of effective ``pseudo-Newtonian" potentials mimicking a black hole is investigated both through numerical simulations and analytical means, and second, the neglect of additional gravitating matter near accreted-upon black holes and its consequences are put to test. After some broader discussion of integrability, resonance and chaos, a general "pseudo-Newtonian" limit for geodesic motion is derived, and applied for the case of null geodesics near a glowing toroid and for time-like geodesics in the Kerr metric. Afterwards, a new Newtonian gravitational potential for non- singular toroids is proposed and its usefulness for the so-called Weyl space-times is discussed. Finally, a new pseudo-Newtonian potential is introduced and applied alongside already known potentials in models of free test particle motion in the field of a black hole with a disc or ring, in complete analogy with previous exact-relativistic studies, and the previous conclusion of chaos in disc/ring-hole models is confirmed. Overall, the pseudo-Newtonian framework is able to reproduce a number of key features of the original systems with notable differences arising only as a consequence of extremely strong or...
494	Astrofyzikální procesy v blízkosti jádra galaxie / Astrophysical processes near a galactic centre Hamerský, Jaroslav January 2015 (has links) An accretion torus is an important astrophysical phenomenon which is be- lieved to account for various features of mass inflow and release of radiation on diverse scales near stellar-mass as well as supermassive black holes. When the stationary torus is perturbed it starts to oscillate and once some part of the torus overflows the closed equipotential surface, defined by the stationary solution, this material is accreted or ejected. These oscillations reveal both spacetime properties and the intrinsic characteristics of the torus model. We study the oscillation and accretion properties of geometrically thick accretion tori using general relativistic magnetohydrodynamic simulations. Assuming axial symmetry these simulations are restricted to 2-D approximation. We discuss the impact of the presence of the large scale magnetic field and the profile of the specific angular momentum on the oscillation properties and on the accretion flow motion. 1
495	Des horloges atomiques à la mission MICROSCOPE : recherche de violations d’invariance de Lorentz / From atomic clocks to the MICROSCOPE mission : search for Lorentz invariance violations Pihan-Le Bars, Hélène 15 November 2018 (has links) Cette thèse présente deux tests d'invariance de Lorentz, réalisés dans le cadre de l'Extension du Modèle Standard (SME). Le premier a pour objectif une recherche de violation dans le secteur SME de la matière, grâce aux données d'une horloge à atomes froids de 133Cs. La recherche de variations de la fréquence de transition hyperfine de cet atome a permis de contraindre plusieurs coefficients SME liés aux protons et aux neutrons, avec une sensibilité améliorant jusqu'à 12 ordres de grandeur les limites actuelles sur ces derniers. Le second test a été réalisé grâce aux données de la mission spatiale MICROSCOPE, en vol depuis le 25 avril 2016, qui a pour but de tester le Principe d'Équivalence faible avec une précision de l’ordre de 10−15 sur le paramètre d'Eötvös. Nous avons utilisé les mesures MICROSCOPE pour contraindre des violations d'invariance de Lorentz dues à un couplage entre matière et gravitation, en recherchant des variations de l'accélération relative de deux masses d'épreuve selon l'orientation de l'axe sensible de l'instrument, un double accéléromètre électrostatique. Les premiers résultats, obtenus grâce à l'analyse de cinq sessions de mesures, ont déjà démontré une amélioration jusqu'à 4 ordres de grandeur des contraintes sur deux coefficients du secteur SME de la matière couplée à la gravitation. / This thesis presents two Lorentz invariance tests, performed within the Standard Model Extension framework (SME). The first one is a search for a violation in the matter sector of the SME, using data from a cold atom clock. The search for variations in the hyperfine transition frequency of 133Cs allowed us to constrain several SME coefficients related to protons and neutrons, with a sensitivity improving by up to 12 orders of magnitude the current best laboratory limits on these coefficients. The second test was carried out using the data from the MICROSCOPE space mission, in flight since April 2016, which is intended to test the Weak Equivalence Principle (WEP) with an accuracy of 10−15 on the Eötvös parameter. In this experiment, a coupling between matter and gravitation could lead to Lorentz violation signals and therefore to variations in relative acceleration of two test masses depending on the satellite orientation. The relative acceleration is measured by a differential electrostatic accelerometer. The first results, obtained through the analysis of five sessions, have already demonstrated an improvement of up to 4 orders of magnitude of the constraints on two coefficients of the SME sector of matter-gravity couplings. Physique fondamentale Relativité générale Modèle standard Fundamental physics General relativity Standard model 520
496	General Relativity and Dynamical Universes Fransson, Kajsa January 2021 (has links) The aim of this report is to explore different models of cosmology, depending on components as matter, radiation and dark energy. To be able to investigate the behaviour and age of these model universes, it is necessary to solve the Friedmann equation. Therefore a substantial part of this thesis is a study of general relativity, including mathematical tools as Riemannian geometry and the concept of curved space-time. / Denna rapport ämnar att utforska olika kosmologiska modeller beroende på innehåll som materia, strålning och mörk energi. För att undersöka beteendet och åldern av dessa modellerade universa så är det nödvändigt att lösa Friedmann-ekvationen. Därför ägnas en betydande del av detta arbete åt att studera allmän relativitetsteori, med matematiska verktyg som Riemanngeometri och konceptet krökt rum-tid. cosmology general relativity scale factor friedmann equation Astronomy, Astrophysics and Cosmology Astronomi, astrofysik och kosmologi
497	Tvar Kerrova gravitačního pole / Shape of the Kerr gravitational field Tynianskaia, Valeriia January 2021 (has links) Kerr metric is one of the most well-known and useful exact solutions of Einstein equations. We study various geometric properties of the Kerr spacetime in order to gain intuition for its spatial shape. In the review part we summarize basic features of the Kerr geometry, we write down Carter equations for geodesic motion in the Kerr spacetime, and we introduce kinematic characteristics of time-like and light-like congruences, such as expansion, shear and twist. In the second part of the thesis we calculate scalars for acceleration, expansion, shear and twist - and plot the corresponding "equipotential" surfaces - for several privi- leged congruences, namely the Carter observers, the static observers, the zero-angular- momentum observers, the principal null congruence and the recently found non-twisting null congruence(s). We also draw surfaces radially equidistant from the horizon and sur- faces spatially orthogonal to the PNC and to the twist-free congruences, as well as the surfaces of constant energy and redshift for the important time-like congruences. 1
498	Violation of Weak Cosmic Censorship in a Gravitational Dust Collapse / ダストの重力崩壊における弱い宇宙検閲官仮設の破れ Mizuno, Ryousuke 23 March 2017 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第20176号 / 理博第4261号 / 新制\|\|理\|\|1612(附属図書館) / 京都大学大学院理学研究科物理学・宇宙物理学専攻 / (主査)教授田中貴浩, 教授川合光, 教授向山信治 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DFAM General relativity Gravity Higher-dimensional theories Naked singularity Cosmic censorship conjecture 400
499	Properties of the Ejecta from Binary Neutron Star Merger Remnants and Implications for the Electromagnetic Signal Associated with GW170817 / 連星中性子星合体後の系からの放出物質の性質とGW170817に付随した電磁波天体についての示唆 Fujibayashi, Sho 26 March 2018 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第20909号 / 理博第4361号 / 新制\|\|理\|\|1626(附属図書館) / 京都大学大学院理学研究科物理学・宇宙物理学専攻 / (主査)教授柴田大, 教授井岡邦仁, 教授川合光 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DFAM Compact binary merger Gravitational wave Numerical relativity Gamma-ray burst Macronova/Kilonova 400
500	Consequences of Quantum Mechanics in General Relativity Sarkar, Souvik 29 October 2018 (has links) No description available. Theoretical Physics Quantum gravity Black hole General relativity Quantum mechanics Dark matter halo 3 dimensional gravity

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