Global ETD Search

11	Axion clouds around black holes in inspiraling binaries / インスパイラルする連星におけるブラックホール周りのアクシオン雲 Takahashi, Takuya 25 March 2024 (has links) 京都大学 / 新制・課程博士 / 博士(理学) / 甲第25108号 / 理博第5015号 / 新制\|\|理\|\|1715(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, 准教授久徳浩太郎, 教授橋本幸士 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM axion black hole gravitational wave binary system 400
12	Axion dark matter and two-neutrino double electron capture searches in the Large Underground Xenon experiment Marzioni, Maria Francesca January 2018 (has links) The hunt for Dark Matter plays a truly critical role in contemporary physics. At both the largest and smallest scales, deep questions are being raised about the fundamental nature of the universe - questions that confirmation and then characterisation of particle dark matter will provide many answers to. This thesis presents some of the world's most sensitive searches to date for certain types of axion dark matter, axion-like particles, and two-neutrino double electron capture. These have been conducted using the Large Underground Xenon (LUX) experiment. Evidence for dark matter and physics beyond the Standard Model of particle physics is described in Chapter 1, while Chapter 2 gives an overview of proposed candidates for particle dark matter. The various experimental approaches being used to detect particle dark matter are presented in Chapter 3. Direct detection with time projection chambers plays a major role in this thesis, with particular interest in the LUX detector, that is described in its components and operations. Chapter 4 presents LUX direct searches for weakly interacting massive particles. Although I have contributed to these analyses, they are included for completeness only, as they are not part of my central work. The LUX collaboration's searches for axion dark matter and axion-like particle have delivered world-leading results on the axion-electron coupling constant. These results, that I personally led and which have been published in Physics Review Letters, are presented in Chapter 5, along with sensitivity studies, also led by me, made for the future LUX-ZEPLIN experiment. Finally, a search for two-neutrino double electron capture of 124Xe, that I performed using LUX data to extract a limit on the half life of the process, is presented in Chapter 6. Although being allowed by the Standard Model, two-neutrino double electron capture shares the matrix element calculation framework with the neutrinoless channel of the same process, becoming of great interest in the scope of neutrino physics. Conclusions follow and close the thesis.
13	[pt] BUSCA POR PARTÍCULAS TIPO ÁXION EM COLISÕES PBPB ULTRAPERIFÉRICAS NO EXPERIMENTO LHCB / [en] SEARCH FOR AXION-LIKE PARTICLES IN ULTRAPERIPHERAL PBPB COLLISIONS AT THE LHCB EXPERIMENT RENATA FERREIRA LEITE CONSIDERA 17 October 2024 (has links) [pt] O Modelo Padrão (MP) da física de partículas é atualmente a teoria mais aceita para descrever as interações fundamentais entre partículas elementares. No entanto, o modelo por si só não consegue explicar vários fenómenos, desde oscilações de neutrinos até matéria escura. Um enigma atual do MP é o chamado problema de CP forte. Embora se saiba que a simetria de Carga-Paridade (CP) é violada pelas interações fracas, ela é conservada pela interação forte com alta precisão. No entanto, a Lagrangeana do MP tem um termo que poderia permitir violação de CP induzida por interação forte, e apenas um extremo ajuste fino evitaria esse efeito. A solução poderia vir com a introdução de uma nova partícula, o áxion. Esta ideia foi posteriormente generalizada para uma classe mais ampla de partículas conhecidas como partículas tipo áxions (ALPs). Apesar de extensas pesquisas, nenhuma evidência de ALPs foi observada até hoje, sendo relatados apenas limites superiores em suas constantes de acoplamento. Esta dissertação descreve a busca por ALPs decaindo em um par de fótons em colisões ultraperiféricas de PbPb a uma energia de centro de massa de 5,02 TeV. Os dados correspondem a uma luminosidade integrada de 0,2 nb(-1) , coletados pelo experimento LHCb. A configuração frontal do detector LHCb é adequada para investigar ALPs de baixa massa, uma faixa desafiadora para outros detectores. Os candidatos a fótons são reconstruídos e identificados usando informações do calorímetro eletromagnético. Esta análise cobre uma faixa de massa de ALP de 3 a 10 GeV e acoplamentos de ALP-fótons de 10(-1) a 1 TeV(-1) . Embora a região de exclusão obtida seja pequena e se sobreponha a análises recentes, este estudo demonstra o potencial, no run 3 e além, do experimento LHCb para contribuir em pesquisas de ALP em colisões ultraperiféricas. / [en] The Standard Model (SM) of particle physics is currently the most accepted theory for describing the fundamental interactions among elementary particles. However, the model alone fails to explain several phenomena, from neutrino oscillations to dark matter. One current puzzle of the SM is the so-called strong CP problem. Although Charge-Parity (CP) symmetry is known to be violated by the weak interactions, it is conserved by the strong interaction to a high precision. Nevertheless, the SM Lagrangian has a term that could allow strong-induced CP violation, and only an extreme fine-tuning would prevent this effect. The solution could come with the introduction of a new particle, the axion. This idea was later generalized into a broader class of particles known as axion-like particles (ALPs). Despite extensive searches, no evidence of ALPs has been observed so far, with only upper limits on their coupling constants being reported. This dissertation describes the search for ALPs decaying into a pair of photons in ultraperipheral PbPb collisions at a center-of-mass energy of 5.02 TeV. The data corresponds to an integrated luminosity of 0.2 nb(-1) , collected by the LHCb experiment. The forward configuration of the LHCb detector is well-suited for investigating low-mass ALPs, a challenging range for other detectors. Photon candidates are reconstructed and identified using information from the electromagnetic calorimeter. Our analysis covers an ALP mass range from 3 to 10 GeV and ALP-photon couplings from 10(-1) to 1 TeV(-1) . Although our exclusion region is small and overlaps with recent analyses, this study demonstrates the potential, in run 3 and beyond, for LHCb to contribute to ALP searches in ultraperipheral collisions. [pt] EXPERIMENTO LHCB [pt] PROBLEMA DA CP FORTE [pt] AXION [pt] ALP [en] LHCB EXPERIMENT [en] STRONG CP FORCE PROBLEM [en] AXION [en] ALP
14	Relaxion Physics: a new solution to the hierarchy problem / Física do Relaxion: uma nova solução para o problema da hierarquia Comar, Naim Elias 22 March 2019 (has links) The electroweak hierarchy problem is one of the most important puzzles of particle physics that remains without conclusive answer nowadays. One of the most recent new class of solutions to this problem is presented in this thesis, i.e., the cosmological relaxation of the electroweak scale. In this framework, we postulate the existence of a new particle, the relaxion, which drives the Higgs mass to values much smaller than the cutoff of the theory during inflation. As tools to develop this subject, this work presents a resume of chiral perturbation theory, the strong CP problem, axions and the eta prime particle. Finally, we will describe the most simple model of cosmological relaxation of the electroweak scale and the non-QCD model, where a new strong group SU(N) forms a condensate that interacts with the relaxion. / O problema da hierarquia eletrofraco é um dos enigmas mais importantes da física de partículas que continua sem uma solução conclusiva hoje em dia. Uma nova classe de soluções, dentre as mais recentes, para este problema é apresentado nessa dissertação, i.e., o relaxamento cosmológico da escala eletrofraca. Neste quadro, nós postulamos a existência de uma nova partícula, o relaxion, que conduz a massa do bóson de Higgs para valores muito menores que o cutoff da teoria durante a inflação. Como ferramentas para desenvolver este assunto, este trabalho apresenta um resumo de teoria de perturbação quiral, o problema CP forte, axions e a partícula eta prime. Finalmente, iremos descrever o modelo mais simples de relaxamento cosmológico da escala eletrofraca e o modelo sem-QCD, onde um novo grupo de interação forte SU(N) forma um condensado que interage com o relaxion. Axion Axion Chiral Perturbation Theory Física de Partículas Hierarchy Problem Particle Physics Problema da Hierarquia Relaxion Relaxion Teoria de Perturbação Quiral
15	Constraining fundamental physics with cosmology Flauger, Raphael Manfred 04 February 2010 (has links) It is shown in three examples that future cosmological data may allow us to constrain fundamental physics in interesting ways. The first example illustrates that correlations in the polarization of the cosmic microwave background may allow us to put the strongest limit yet on the mass of a particle, the graviton, at a level of m . 10−30 eV. In the second example, it is shown that observations of the correlations of temperature anisotropies and polarization of the cosmic microwave background may reveal hints for the realization of a class of string theoretic inflationary models that go by the name of axion monodromy inflation, or, rule them out. If the evidence for inflation strengthens substantially, just the requirement that inflation occurred may be used to constrain models of fundamental physics. The third example shows that a class of string compactifications that are commonly used in the context of string phenomenology cannot support inflation and might thus be ruled out by cosmology. For completeness, a review of the physics underlying the cosmic microwave background radiation is included and some analytical results for the signatures of primordial gravitational waves in the cosmic microwave background are given. / text Cosmology Axion monodromy inflation Graviton Fundamental physics Constraint Cosmic microwave background
16	The relationships between neutrino Majorana mass and other physics / ニュートリノマヨラナ質量と他の物理の関係 Ohata, Takahiro 23 March 2021 (has links) 京都大学 / 新制・課程博士 / 博士(理学) / 甲第22993号 / 理博第4670号 / 新制\|\|理\|\|1670(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)准教授吉岡興一, 教授田中貴浩, 准教授髙山史宏 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DFAM neutrino oscillation muon g-2 anomaly axion dark matter Majoron 400
17	Searching for axionlike dark matter using nuclear magnetic resonance and precision magnetometry Aybas, Deniz 27 September 2021 (has links) Astrophysical observations indicate the existence of dark matter through its gravitational interaction, but since its other interactions remain undetected, its particle nature is still unknown. There are several dark matter candidates, one being a hypothetical particle called axion that can have three types of non-gravitational couplings: electromagnetic, electric dipole moment (EDM), and gradient. This dissertation presents experimental approaches and axionlike dark matter search results from two table-top experiments: Cosmic Axion Spin Precession Experiment (CASPEr-electric) sensitive to EDM and gradient couplings, and Search for Halo Axions with Ferromagnetic Toroids (SHAFT) sensitive to electromagnetic coupling. CASPEr-electric is a resonant search for axionlike dark matter through the induced nuclear spin precession. The experimental approach is measuring nuclear magnetic resonance (NMR) of the heavy atom in a ferroelectric crystal. Experimental setup is characterized using pulsed NMR calibration measurements. Recorded search data that is sensitive to axionlike dark matter is analyzed by optimal filtering and then setting a detection threshold based on the histogram of power spectral density modeled as a Gaussian distribution. The candidates above the threshold are all rejected through statistical fluctuations and scan/re-scan measurements. CASPEr-electric places the upper bounds on the EDM and gradient couplings of axionlike dark matter in the Compton frequency range from 39.1 MHz to 40.2 MHz. SHAFT is a broadband search for axionlike dark matter through the induced oscillatory magnetic field. The resultant magnetic flux is measured with a precision magnetometer called superconducting quantum interference device (SQUID), coupled to a coil placed on the inner surface of a ferromagnetic toroid. After analyzing the search data, all candidates are rejected and SHAFT places a limit on electromagnetic coupling of axionlike dark matter between 3 kHz and 3 MHz Compton frequencies. Finally, coupling limits placed by CASPEr-electric and SHAFT are evaluated in the wider parameter space, and possible future directions that both experiments could take to improve their sensitivities to axionlike dark matter are discussed. / 2022-09-27T00:00:00Z Electrical engineering Axion CASPEr Dark matter Nuclear magnetic resonance Precision magnetometry
18	Topological insulators and superconductors: classification of topological crystalline phases and axion phenomena / トポロジカル絶縁体・超伝導体：結晶トポロジカル相の分類とアクシオン現象について Shiozaki, Ken 23 March 2015 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第18779号 / 理博第4037号 / 新制\|\|理\|\|1581(附属図書館) / 31730 / 京都大学大学院理学研究科物理学・宇宙物理学専攻 / (主査)教授川上則雄, 教授佐々真一, 教授前野悦輝 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DFAM Topological phase Axion electrodynamics Topological crystalline phase 400
19	Search for axion dark matter using solid state nuclear magnetic resonance and superconducting magnetometers Adam, Janos 07 November 2023 (has links) One of the major unsolved questions of modern physics is the nature of dark matter, whose existence is inferred from astronomical observations. There are numerous potential dark matter candidates: one strong contender is the axion. The axion was initially proposed to solve the strong CP problem of quantum chromodynamics but it was later realized that its properties make it simultaneously a good candidate for dark matter. Axions couple to the Standard Model in various ways. In this thesis, we describe experiments which exploit the axion coupling gd to the nuclear electric dipole moment (nEDM). In particular, in the presence of an external electric field, the axion perturbs the magnetization of an ensemble of nuclear spins due to this coupling. In the CASPEr-Electric experiment, the axion dark matter interacts with the nuclear spins of 207Pb and the effective electric field is provided by a ferroelectric crystal in which the 207Pb is embedded. CASPEr-Electric is a resonant search where axion dark matter would perturb the equilibrium magnetization of the 207Pb nuclear spin ensemble. The experiment is calibrated through pulsed nuclear magnetic resonance (NMR) experiments on the 207Pb nuclei. The first generation of the experiment demonstrated the feasibility of this method and established limits on the nEDM coupling in the mass range of 162-166 neV (Compton frequency 39-40 MHz). This thesis primarily focuses on the second generation of the CASPEr-Electric experiment, which probed axion dark matter at a lower frequency range of 4 - 5 MHz using superconducting quantum interference devices (SQUIDs). Our search established upper limits on the coupling for axion masses in the range 19.5-20.5 and 21.5-22 neV (4.6 - 5.0 and 5.2 - 5.3 MHz). The upper bound on the nEDM coupling is \|gd\| < 4 x 10-4, GeV-2 with 95 % confidence. / 2024-11-07T00:00:00Z Physics Axion Cosmology Dark matter Low temperature Nuclear magnetic resonance Quantum physics
20	Axion Electrodynamics and Measurable Effects in Topological Insulators / Axion Elektrodynamik och Mätbara Effekter i Topologiska Isolatorer Asker, Andreas January 2018 (has links) Topological insulators are materials with their electronic band structure in bulk resembling that of an ordinary insulator, but the surface states are metallic. These surface states are topologically protected, meaning that they are robust against impurities. The topological phenomena of three dimensional topological insulators can be expressed within topological field theories, predicting axion electrodynamics and the topological magnetoelectric effect. An experiment have been suggested to measure the topological phenomena. In this thesis, the underlying theory and details around the experiment are explained and more detailed derivations and expressions are provided. Topological Insulators Axion Electrodynamics Topological Magnetoelectric Effect Topological Field Theory Faraday-Kerr Effect Topologiska Isolatorer Axion Elektrodynamik Topologiska Magnetoelektriska Effekten Topologisk Fältteori Faraday-Kerr Effekten Condensed Matter Physics Den kondenserade materiens fysik

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