Global ETD Search

41	The Impact of Swampland Conjectures Nilsson, Daniel January 2023 (has links) The Swampland program is way of sorting effective field theories based on conjectures of how an effective field theory consistent with quantum gravity should look like. In this thesis we take a closer look at the No Global Symmetries Conjecture, the Weak Gravity Conjecture, the de Sitter Conjecture and the Trans-Planckian Censorship Conjecture. The Weak Gravity Conjecture generalized to arbitrary dimensions and p-forms is tested under dimensional reduction and its sharpened version is used to discuss how under this conjecture non-supersymmetric AdS geometries are unstable. The de Sitter Conjecture and the Trans-Planckian Censorship Conjecture are compared to show that they give similar predictions based on different assumptions. Lastly we provide an example of a theory emerging from the swampland that utilizes the instability of AdS geometries to model our universe as the boundary of a higher dimensional expanding bubble. / Swampland-programmet är ett sätt att sortera effektiva fältteorier baserat på antaganden om hur en effektiv fältteori förenlig med kvantgravitation bör se ut. I den här avhandlingen tittar vi närmare på No Global Symmetries-antagandet, Weak Gravity-antagandet, de Sitter-antagandet och Trans-Planckian Censorship-antagandet. Weak gravity-antagandet generaliserat till godtyckliga dimensioner och p-former testas under dimensionsreduktion och dess skärpta version används för att diskutera hur man via detta antagande finner en instabilitet i icke-supersymmetriska AdS-geometrier. De sitter-antagandet och Trans-Planckian Censorship-antagandet jämförs för att visa att de ger liknande förutsägelser baserat på olika frågeställningar. Slutligen ger vi ett exempel på en teori som växer fram ur programmet som använder instabiliteten hos AdS-geometrier genom att modellera vårt universum som randen på en expanderande bubbla i högre dimensioner. String theory Quantum gravity Swampland program Effective field theories Other Physics Topics Annan fysik
42	Properties of One- and Two-Nucleon Halo Nulcei in Effective Field Theory Acharya, Bijaya 24 August 2015 (has links) No description available. Physics halo nuclei effective field theory Carbon-22 Carbon-19 Lithium-11, Coulomb dissociation
43	Bayesian Methods for Effective Field Theories Wesolowski, Sarah 18 December 2017 (has links) No description available. Nuclear Physics bayesian nuclear physics effective field theory nucleon-nucleon scattering
44	Universality and Beyond: Effective Field Theory for Three-Body Physics in Cold Atoms and Halo Nuclei Ji, Chen 11 September 2012 (has links) No description available. Physics Cold Atoms Effective Field Theory Halo Nuclei Three-Body Physics
45	Triangle Singularities in the Production of the X(3872) Resonance He, Liping January 2021 (has links) No description available. Particle Physics Theoretical Physics
46	Nuclear physics at low renormalization group resolution Tropiano, Anthony Joseph 06 September 2022 (has links) No description available. Physics Renormalization group effective field theory nuclear forces nucleon-nucleon interactions
47	Hydrodynamics : from effective field theory to holography Grozdanov, Saso January 2014 (has links) Hydrodynamics is an effective theory that is extremely successful in describing a wide range of physical phenomena in liquids, gases and plasmas. However, our understanding of the structure of the theory, its microscopic origins and its behaviour at strong coupling is far from complete. To understand how an effective theory of dissipative hydrodynamics could emerge from a closed microscopic system, we analyse the structure of effective Schwinger-Keldysh Closed-Time-Path theories. We use this structure and the action principle for open systems to derive the energy-momentum balance equation for a dissipative fluid from an effective CTP Goldstone action. Near hydrodynamical equilibrium, we construct the first-order dissipative stress-energy tensor and derive the Navier-Stokes equations. Shear viscosity is shown to vanish, while bulk viscosity and thermodynamical quantities are determined by the form of the effective action. The exploration of strongly interacting states of matter, particularly in the hydrodynamic regime, has been a major recent application of gauge/string duality. The strongly coupled theories involved are typically deformations of large-$N$ SUSY gauge theories with exotic matter that are unusual from a low-energy point of view. In order to better interpret holographic results, an understanding of the weak-coupling behaviour of such gauge theories is essential. We study the exact and SUSY-broken N=1 and N=2 super-QED with finite densities of electron number and R-charge, respectively. Despite the fact that fermionic fields couple to the chemical potentials, the strength of scalar-fermion interactions, fixed by SUSY, prevents a Fermi surface from forming. This is important for hydrodynamical excitations such as zero sound. Intriguingly, in the absence of a Fermi surface, the total charge need not be stored in the scalar condensates alone and fermions may contribute. Gauss-Bonnet gravity is a useful laboratory for non-perturbative studies of the higher derivative curvature effects on transport coefficients of conformal fluids with holographic duals. It was previously known that shear viscosity can be tuned to zero by adjusting the Gauss-Bonnet coupling, λ<sub>GB</sub>, to its maximal critical value. To understand the behaviour of the fluid in this limit, we compute the second-order transport coefficients non-perturbatively in λ<sub>GB</sub> and show that the fluid still produces entropy, while diffusion and sound attenuation are suppressed at all order in the hydrodynamic expansion. We also show that the theory violates a previously proposed universal relation between three of the second order transport coefficients. We further compute the only second-order coefficient thus far unknown, λ<sub>2</sub>, in the N=4 super Yang-Mills theory with the leading-order 't Hooft coupling correction. Intriguingly, the universal relation is not violated by these leading-order perturbative corrections. Finally, by adding higher-derivative photon field terms to the action, we study charge diffusion and non-perturbative parameter regimes in which the charge diffusion constant vanishes. 532
48	Phenomenology of neutrino properties, unification, and Higgs couplings beyond the Standard Model Riad, Stella January 2017 (has links) The vast majority of experiments in particle physics can be described by the Standard Model of particle physics (SM). However, there are indications for physics beyond it. The only experimentally demonstrated problem of the model is the difficulty to describe neutrino masses and leptonic mixing. There is a plethora of models that try to describe these phenomena and this thesis investigates several possibilities for new models, both full theories and effective frameworks. The values of the parameters in a model are dependent on the energy scale and we say that the parameters run. The exact behavior of the running depends on the model and it provides a signature of the model. For a model defined at high energies it is necessary to run the parameters down to the electroweak scale in order to perform a comparison to the known values of observed quantities. In this thesis, we discuss renormalization group running in the context of extra dimensions and we provide an upper limit on the cutoff scale. We perform renormalization group running in two versions of a non-supersymmetric SO(10) model and we show that the SM parameters can be accommodated in both versions. In addition, we perform the running for the gauge couplings in a large set of radiative neutrino mass models and conclude that unification is possible in some of them. The Higgs boson provides new possibilities to study physics beyond the SM. Its properties have to be tested with extremely high precision before it could be established whether the particle is truly the SM Higgs boson or not. In this thesis, we perform Bayesian parameter inference and model comparison. For models where the magnitude of the Higgs couplings is varied, we show that the SM is favored in comparison to all other models. Furthermore, we discuss lepton flavor violating processes in the context of the Zee model. We find that these can be sizeable and close to the experimental limits. / <p>QC 20170221</p> Effective field theories neutrino physics extra dimensions universal extra dimensions Higgs physics renormalization group running Bayesian statistics grand unified theories
49	Search for new physics in dilepton final states at the CMS experiment Fang, Wenxing 19 June 2019 (has links) (PDF) This thesis describes searches for new heavy resonances that decay into dielectron final state and searches for new physics in the top quark sector. The standard model of elementary particle is introduced in the first chapter. After that, a selection of theories beyond the standard model that predict the existence of new massive resonances are described together with an introduction to the effective field theory that is used to search for new physics in top quark sector. Then, the Large Hadron Collider (LHC) and the Compact Muon Solenoid (CMS) detector are introduced, and the techniques used in order to reconstruct the particles produced in the collisions are discussed afterwards. Finally, two separate analyses are presented.The first analysis is searching for new heavy resonances using dielectron final state. As some beyond Standard Model theories predict the existence of new heavy resonances that can decay into dielectron pair, such as the grand unified theories and theories that introduce extra space-like dimensions. An observation of a local “bump” in the dielectron invariant mass spectrum will be an evidence for the existence of a new heavy resonance. The data used is from CMS experiment collected in 2016 with 35.9 fb-1 and in 2017 with 41.4 fb-1. The event selection is optimized in order to be highly efficiency for high energy electron and avoid loosing potential signal events. The leading background is the Drell-Yan process and it is estimated from simulation. The sub-leading background is from ttbar and ttbar-like processes and it is estimated from simulation also. A data-driven method is used to validate the simulation of sub-leading background. The last background from quantum chromodynamics processes is determined by data-driven approach. After having inspected the final dielectron invariant mass spectrum, no significant excess over the standard model background is observed, and upper limit at 95% confidence level is set on the ratio of production cross-section times branching ratio of a new resonance to the one at the Z boson peak.The second analysis is the search for new physics in the top quark sector with dielectron and dimuon final states using data collected by the CMS experiment in 2016 with 35.9 fb-1. Because of its high mass and close to electroweak symmetry breaking scale, the top quark is expected to play an important role in several new physics scenarios. The new physics in top quark pair production and in single top quark production in association with a W boson are investigated and a dedicated multivariate analysis is used to separate these two processes. No significant deviation from the standard model expectation is observed. Results are interpreted in the framework of an effective field theory and constraints on the relevant effective couplings are set at 95% confidence level. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Physique des particules élémentaires
50	Jet Physics at High Energy Colliders Chien, Yang-Ting 18 October 2013 (has links) The future of new physics searches at the LHC will be to look for hadronic signals with jets. In order to distinguish a hadronic signal from its background, it is important to develop advanced collider physics techniques that make accurate theoretical predictions. This work centers on phenomenological and formal studies of Quantum Chromodynamics (QCD), including resummation of hadronic observables using Soft Collinear Effective Theory (SCET), calculating anomalous dimensions of multi-Wilson line operators in AdS, and improving jet physics analysis using multiple event interpretations. / Physics Particle physics effective field theory jet algorithm jet physics quantum chromodynamics soft collinear effective theory Wilson line

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