Lorentz violation in quantum field theory

Bolokhov, Pavel Anatolievich

25 September 2007

There are hints coming from some scenarios of modern String and Quantum Gravity theories that Lorentz invariance may not be an exact symmetry of Nature. The study of Lorentz violating theories therefore provides an insight into ultraviolet physics. We employ the Effective Field Theory technique to study the most general extension of the Standard Model and its Supersymmetric modifications with Lorentz-violating interactions of mass dimension five. We provide a complete classification of the interactions in these theories and determine a typical experimental sensitivity to the size of Lorentz violation. A detailed study of the operators that induce CPT-odd Electric Dipole Moments is performed and it is shown that they yield an independent constraint on Lorentz violating physics. We provide an application of Lorentz violating physics to the problem of generation of baryon asymmetry of the universe. A scenario of Leptogenesis driven by CPT-odd interactions is considered and confronted with experimental constraints on Lorentz-violating physics.

Lorentz violation

Effective Field Theory

Discrete symmetries

Leptogenesis

Supersymmetric Quantum Electrodynamics

Gauge Anomalies

Electric Dipole Moments

Termodinâmica violando a invariância de Lorentz pela teoria de campos efetiva no regime ultravioleta e aplicações.

SANTOS, Wagner Oliveira dos.

05 November 2018

Submitted by Emanuel Varela Cardoso (emanuel.varela@ufcg.edu.br) on 2018-11-05T20:45:40Z No. of bitstreams: 1 WAGNER OLIVEIRA DOS SANTOS – DISSERTAÇÃO (PPGFísica) 2017.pdf: 707943 bytes, checksum: f2f7e6d2f28889fe9d5b1bf8b99fbbcd (MD5) / Made available in DSpace on 2018-11-05T20:45:40Z (GMT). No. of bitstreams: 1 WAGNER OLIVEIRA DOS SANTOS – DISSERTAÇÃO (PPGFísica) 2017.pdf: 707943 bytes, checksum: f2f7e6d2f28889fe9d5b1bf8b99fbbcd (MD5) Previous issue date: 2017-08-09 / Capes / Nesta dissertação consideramos a proposta de modificação dos setores do fóton e do férmion via à teoria de campos efetiva de Myers-Pospelov. Esta abordagem tem como principal característica a violação da simetria de Lorentz através da introdução de operadores de altas ordens derivativas de dimensão-5 e campos constantes. Consequentemente,a quebra desta importante simetria conduz a relações de dispersão que sondam efeitos na escala de energia de Planck, onde efeitos da gravidade quântica devem ser relevantes. Isso nos motiva a estudar as possíveis consequências destas relações de dispersão modificadas no comportamento termodinâmico de gases compostos por fótons ou férmions. Será mostrado que a violação da simetria de Lorentz pode ser interpretada como uma pseudo-interação repulsiva ou atrativa entre as partículas. Mostraremos também, por exemplo, que a relação de dispersão modificada do fóton, implica em um aumento da entropia do sistema, isto é, a quebra da simetria de Lorentz pode conduzir a um aumento no número de estados acessíveis do sistema. Além disso, aplicamos as propriedades destes gases a radiação de corpo negro e a dinâmica estelar de anãs brancas no modelo de Chandrasekhar. / In this dissertation, we consider a proposal which modifies the gauge and fermion sectors via Myers-Pospelov effective field theory. The main feature of this approach is the Lorentz symmetry violation through the introduction of higher-derivatives operators of dimension-5 and constant fields. Hence, breaking this important symmetry leads to dispersion relations probing effects in the Planck energy scale, that in turn, sets the limit for which the quantum description of space-time becomes to be relevant. It motivate us to study the possible implications of these modified dispersion relations on thermodynamic behavior of photons and fermions gases. It will be shown that the breakdown of Lorentz invariance can be interpreted as a repulsive or attractive pseudo-interaction among the particles. Additionally, for instance, it will be shown that the presence of a deformed dispersion relation for photons entails an increase in the entropy of the system, e.g., the Lorentz symmetry violation may lead to an increase in the number of microstates available to the system. In addition, we apply the properties of these gases to black body radiation and stellar dynamics of white dwarfs in the Chandrasekhar model.

Física Geral

Física

Invariância de Lorentz

Regime ultravioleta

Teoria de Campos Efetiva

Termodinâmica modificada

Invariance of Lorentz

Ultraviolet regimen

Effective Field Theory

Modified thermodynamics

Sondando a violação de CP no setor escalar e de calibre por meio dos operadores efetivos

Freitas, Felipe Ferreira de

30 March 2017

Submitted by Maike Costa (maiksebas@gmail.com) on 2017-07-05T14:50:01Z No. of bitstreams: 1 arquivototal.pdf: 3897113 bytes, checksum: 13b1bc4f67b2b3d6ab8fad34190f7c20 (MD5) / Made available in DSpace on 2017-07-05T14:50:01Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 3897113 bytes, checksum: 13b1bc4f67b2b3d6ab8fad34190f7c20 (MD5) Previous issue date: 2017-03-30 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / In this thesis we study the phenomenological consequences of several CP-violating structures that could arise in the Standard Model effective field theory framework. Focusing on operators involving electroweak gauge and/or Higgs bosons, we derive constraints originating from Run I LHC data. We then study the capabilities of the present and future LHC runs at higher energies to further probe associated CP-violating phenomena and we demonstrate how differential information can play a key role. We consider both traditional four-lepton probes of CP-violating in the Higgs sector and novel new physics handles based on varied angular and non-angular observables. / Nesta tese é estudado as consequências fenomenológicas de diversas estruturas que violam a simetria CP, surgidas no contexto do modelo padrão efetivo. Focando nos operadores que envolvem os bósons de calibre e o Higgs, estabelecemos vínculos provenientes dos dados do RUN I do LHC. Em seguida, é estudada a capacidade do RUN I e de futuros RUNs do LHC em sondar os fenômenos associados à violação de CP e é demonstrado como as informações provenientes das distribuições diferencias podem desempenhar um papel chave para determinação destes vínculos. Para sondar efeitos físicos de violação de CP, consideramos tanto as sondagens tradicionais utilizando o canal de decaimento do Higgs em 4 léptons assim como novos observáveis angulares e cinemáticos empregados em diferentes canais de produção e decaimento do Higgs.

Fenomenologia

Física do Higgs

Violação de CP

Teoria Quântica de Campos Efetiva

Phenomenology

Higgs Physics

CP-violation

Effective Field Theory

CIENCIAS EXATAS E DA TERRA::FISICA

Equações de difusão para objetos unidimensionais no contexto das teorias de Yang-Mills

Teixeira, Bruno Fernando Inchausp

07 March 2017

Submitted by Biblioteca do Instituto de Física (bif@ndc.uff.br) on 2017-03-07T18:35:27Z No. of bitstreams: 1 TESE.pdf: 797081 bytes, checksum: 36b77c687969ac7b12aeef2589d1d766 (MD5) / Made available in DSpace on 2017-03-07T18:35:27Z (GMT). No. of bitstreams: 1 TESE.pdf: 797081 bytes, checksum: 36b77c687969ac7b12aeef2589d1d766 (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Conselho Nacional de Desenvolvimento Científico e Tecnológico / Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro / O confinamento de quarks e glúons continua sendo um dos maiores problemas da Física atual, mesmo depois de passados 50 anos da criação da cromodinâmica quântica. Existem diversas abordagens que procuram uma explicação para este comportamento. Um destes cenários consiste na supercondutividade dual, proposta por G. t’Hooft em 1978. Aqui, ele discute como a condensação de objetos cromomagnéticos poderia originar um potencial linear entre cargas cromoelétricas. Este mecanismo é um dos mais aceitos atualmente e nos dirige à algumas perguntas cruciais: como estes objetos poderiam se tornar relevantes em teorias de Yang-Mills puras? quais os tipos de objetos que devemos levar em consideração para gerar as propriedades do potencial confinante? Embora a primeira pergunta seja difícil de responder, a segunda pode ser atacada por técnicas diferentes, suportadas pelas descrições na rede e por descrições efetivas de ensembles 1. Nesta tese, me dedico a estudar uma classe de objetos que s˜ao bons candidatos a resolverem a segunda questão: monopólos e vórtices de centro. Quando estamos lidando com as teorias de Yang-Mills puras SU(N), o problema consiste que, em nível clássico, estes defeitos são singulares. Porém, recebendo suporte da rede (nosso laboratório em teoria quântica de campos), podemos imaginar que, devido a flutuações quânticas do vácuo, estes objetos poderiam adquirir algumas propriedades dimensionais, como tensão,rigidez e interações que ajudariam a caracterizar o ensemble magnético nos levando a descrições de campos efetivas, que podem ser utilizadas para extrair a corda elétrica confinante. Utilizando técnicas oriundas da física de polímeros obtivemos equações de difusão que representam objetos unidimensionais, como vórtices de centro em 3D ou monopólos em 4D. O surgimento de uma derivada covariante abeliana, no caso do ensemble de vórtices de centro e instantons correlacionados em 3D, e de uma derivada covariante não abeliana, no caso do ensemble de monopólos coloridos em 4D, foi fundamental paragerar os modelos efetivos correspondentes. Acreditamos que estas equações de difusão poderão ser úteis, no futuro, para relacionar as propriedades do potencial entre quarks e aquelas de seus possíveis ensembles correspondentes. / Nowadays, quark and gluon confinement continues to be one of the most important problems in Physics. It remains unsolved, although 50 years have passed since the foundations of quantum chromodynamics. There are various approaches aimed at explaining this behaviour. One of them is the dual superconductor scenario proposed by G. t’Hooft in 1978. The general idea is that the condensation of chromomagnetics objects could originate a linear potential between chromoelectric charges. This is a promising mechanism that posses some crucial questions: how could these objects be relevant in pure YangMills? what type of object would be needed in order to generate the properties of the confining potential? While the first question is very difficult, the second one can be approached by different techniques, guided by the lattice and effective ensemble descriptions. In this thesis, I’ve been working on some good candidates to solve the second question: monopoles and center vortices. When dealing with pure SU(N) Yang-Mills theory, the problem is that at the classical level these magnetic defects are singular. Nevertheless, supported by the lattice (our laboratory in quantum field theory), we can imagine that, due to quantum vacuum fluctuations, they could acquire dimensionful properties. The tension, stiffness, as well as possible interactions that characterize the magnetic ensemble lead to effective field descriptions, that could be used to extract the corresponding confining electric string. Based on techniques borrowed from the physics of polymers, we obtained diffusion equations that describe magnetic one-dimensional objects, such as center vortices in 3D and monopoles in 4D. The appearance of an Abelian covariant derivative, for an ensemble of chains in 3D, and a non Abelian one, in the case of coloured loops in 4D, was essential to generate the corresponding effective descriptions. We believe that these diffusion equations could be helpful in the future, to relate the properties of the interquark potential and those of the possible underlying ensembles.

Teoria de Yang-Mills

Equações de difusão

Confinamento

Teorias de campo efetivas

Teoria de Yang-Mills

Equação de difusão

Confinamento (física)

Teoria de campo efetivas

Yang-Mills theories

Diffusion equations

Confinement

Effective field theories

Precision calculations in effective theories for Higgs production / Calculs de précision dans des théories effectives pour la physique du boson de Higgs

Deutschmann, Nicolas

08 September 2017

Après une introduction générale, ce manuscrit contient deux chapitres préliminaires, l'un décrivant le contexte physique et l'autre les techniques mathématiques utilisées lors de cette thèse.Nous présentons ensuite les travaux développés au cours de cette thèse. Nous commençons par l'extraction de la correction du couplage de Yukawa du quark bottom dans la théorie effective du boson de Higgs par un calcul de correspondance à deux boucles entre cette théorie effective et le modèle standard. Cette correction était la pièce manquante pour l'amélioration de la prédiction de la section efficace de production du boson de Higgs en association avec deux quarks bottom.Les deux chapitres suivants couvrent différents aspects du calcul de la correction au deuxième ordre de la section efficace de production d'un boson de Higgs par fusion de gluon dans la théorie effective du modèle standard. Nous présentons d'abord le calcul des corrections virtuelles de ce processus et exploitons la structure établie des divergences ultraviolettes à une boucle et des divergences infrarouges pour extraire un contre terme à deux boucles qui nous a permis de renormaliser l'amplitude, que nous avons ensuite prolongé analytiquement aux régions physiques.Nous combinons alors ce résultat avec le calcul automatique des corrections par émission réelles par le logiciel Madgraph5_aMC@NLO, qui a permis l'intégration de la section efficace. Nous présentons les résultats pour la section efficace totale et deux distributions de variables cinématiques et commentons l'impact des corrections radiatives sur ces prédictions / After a general introduction, this manuscript presents two preliminary chapters, describing first the physics context and the mathematical techniques used in this thesis.We then present the work performed in this thesis. We start with extraction of the power-suppressed of the Yukawa coupling of the bottom quark in the Higgs Effective Field Theory (HEFT) by a two-loop matching calculation between the Standard Model and the HEFT. This correction was the missing piece to improve the prediction of the production cross section of a Higgs boson in association to a pair of bottom quarks.The two next chapters present different aspects of the NLO corrections to Higgs boson production through gluon fusion in the standard model effective field theory. We first present the evaluation of the virtual corrections to this process and use the known one-loop ultraviolet and infrared divergence structure to extract a two-loop counterterm that allowed us to renormalize the amplitude, which we then analytically continued to the physical regions.We then combine this result with the automatic calculation of the real emission corrections in the program Madgraph5_aMC@NLO. The results are presented for the total cross section and differential distributions and comment on the effect of radiative corrections on these predictions

Physique des particules

Modèle standard

Boson de Higgs

Théories effectives

Intégrales à boucles

Particle physics

Standard model

Higgs boson

Effective field theories

Loop integrals

539.72

Tópicos em dinâmica de fluidos como uma teoria de campo / Topics in fluid dynamics as field theory

Coelho, David Montenegro, 1990-

31 August 2018

Orientador: Donato Giorgio Torrieri / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Física Gleb Wataghin / Made available in DSpace on 2018-08-31T06:57:06Z (GMT). No. of bitstreams: 1 Coelho_DavidMontenegro_M.pdf: 2238497 bytes, checksum: 78f745f9d544a31d97a2d7a80b7dc505 (MD5) Previous issue date: 2016 / Resumo: O interesse científico cresceu após confirmado por testes experimentais o comportamento do Plasma de Quark-Glúon como um fluido quase perfeito no LHC e RHIC. O objetivo desse trabalho é fornecer as bases teóricas da Effective Field Theory (EFT) na abordagem da Hidrodinâmica, pois vários recursos não-triviais na dinâmica relativística dos fluidos são claramente explicados por esse formalismo. Problemas teóricos na EFT sugerem a inclusão de uma nova formulação do Princípio de Hamilton compatível com o princípio da causalidade, através do Closed-Time-Path. Após resolvido esse problema, alcançamos o requisito necessário para derivar a hidrodinâmica dissipativa em altas ordens por meio da ação. Assim, conseguimos caracterizar a Lagrangeana de Navier-Stokes ao introduzir a quebra de simetria na preservação do difeomorfismo pelo volume por meio do termo $B^{-1}_{IJ}$. No entanto, uma análise pelo método de Ostrogradski levou à supressão dessa equação, através da inclusão da Lagrangeana de Israel-Stewart na expansão que é justificada por meios de argumentos de estabilidade e causalidade. Por fim, propomos uma variável $X_{IJ}$ na Lagrangeana de Israel-Stewart, simétrica, anisotrópica e dependente das condições iniciais que juntamente com os já estabelecidos graus de liberdade de campo, formam a base para a derivação bottom-up em altas ordens da EFT e propicia medidas para estudar turbulência e instabilidade no vácuo e outras situações que chegam da relação entre graus de liberdade macroscópico e microscópico / Abstract: Scientific interest grew after the behavior of the quark-gluon Plasma as a nearly perfect fluid in the LHC and RHIC. The objective of this dissertation is offer support to use the Effective Field Theory (EFT) approach to study hydrodynamics because many non-trivial features in relativistic fluid dynamics are clearly explained by this Lagrangian formalism. Theoretical problems in EFT considering by including a new formulation of the Hamiltonian principle that is compatible with the principle of causality for non-conservative field through the Closed-Time-Path formalism. After solving this problem, we reached requirement to derive the dissipative hydrodynamics in higher orders of action. We were able to characterize Navier-Stokes' Lagrangian by introducing the symmetry breaking of preserving diffeomorphism through the volume with the term $B^{-1}_{IJ} $ to the Lagrangian of Navier-Stokes. An analyse of Ostrogradski's method led to the removal of equation by including the Israel-Stewart term in the Lagrangian expansion that provides an extra justification by means of symmetry and causality arguments. Finally, we propose a variable $ X_ {IJ} $, Israel-Stewart's Lagrangian, symmetric, anisotropic and dependent on initial conditions together with an established degree of freedom of the field, which form the basis for the derivation of higher orders of the bottom up and promote steps to the study of turbulence by instability in the vacuum, and other situations arising from the relationship between macroscopic and microscopic degrees of freedom / Mestrado / Física / Mestre em Física / 147435/2014-5 / CNPQ

Teoria de campo efetivo

Hidrodinâmica

Estabilidade

Causalidade (Física)

Israel-Stewart, Teoria de

Navier-Stokes, Equações de

Effective field theory

Hydrodynamics

Stability

Causality (Physics)

Israel-Stewart theory

Navier-Stokes equations

Renormalization invariance of many-body observables within pionless effective field theory / Indépendance de la renormalisation d'observables à N corps dans une théorie effective des champs sans pions

Drissi, Mehdi

25 October 2018

À l’heure actuelle, l’interaction entre nucléons est décrite par une théorie effective des champs chiraux. Dans ce cadre théorique, les contributions aux observables nucléaires sont organisées en suite d’importance décroissante. En particulier, le calcul de la contribution principale nécessite de résoudre exactement l’équation de Schrödinger pour un certain Hamiltonien. Une description alternative de l’interaction nucléaire, dite théorie effective des champs sans pion, considère uniquement des nucléons comme degrés de liberté et mène à la même nécessité d’une résolution exacte de l’équation de Schrödinger. En pratique, de tels calculs sont irréalistes, même numériquement, pour des observables à N corps dès que N >> 10. Par conséquent, des approximations supplémentaires doivent être développées. Dans cette thèse, des approximations non-perturbatives basées sur des fonctions de Green auto-cohérentes (SCGF) ainsi que des approximations basées sur des théories des perturbations à N corps (MBPT) sont considérées dans le cadre de la théorie effective des champs sans pion. Le but de cette thèse est d’étudier l’invariance par le groupe de renormalisation d’observables à N corps calculées avec ces approximations supplémentaires. L’espoir étant de pouvoir ensuite étendre les conclusions tirées au cas de la théorie effective des champs chiraux. Dans le cas des approximations SCGF, l’analyse des résultats numériques produits avec un code à l’état de l’art révèle une instabilité critique amenant à des observables dépendant de la renormalisation. Un correctif est proposé et devra être implémenté avant tout futur calcul SCGF au sein de la théorie effective des champs sans pion. Cette étude révèle l’importance critique des approximations numériques sur l’invariance par le groupe de renormalisation des observables. Dans le cas des approximations perturbatives basées sur MBPT, une étude formelle ouvre la voie pour dériver, de manière systématique, une renormalisation adéquate pour un large ensemble d’approximation à N corps. / The current paradigm to describe the nuclear interaction is within the frame of Chiral Effective Field Theory (ₓEFT) which organizes contributions to observables in a serie of decreasing importance. It happens that the leading contribution already requires to solve exactly the Schrödinger equation with a particular Hamiltonian. The same requirement is at play in pionless EFT which considers only nucleonic degrees of freedom. Such calculations are numerically intractable for A-body observables with A >> 10. One must design an additional expansion and truncation for many-body observables. In this thesis, non-perturbative approximations on the basis self-consistent Green’s function (SCGF) and on many-body perturbation theory (MBPT) are considered together with a pionless EFT. The goal of the present thesis is to investigate, in such framework, the renormalization invariance of many-body observables computed in A-body sectors with A >> 10. Hopefully the lessons learnt can be extended to ₓEFT. Analysis of numerical calculations realized with a state-of-the-art SCGF code reveals a critical numerical approximation leading to renormalization dependent observables. A necessary fix is proposed and must be implemented before any calculations based on SCGF and EFT in the future. This emphasizes the criticality of numerical approximations for any calculation within a pionless EFT. At the same time, renormalization invariance of observables computed within MBPT is studied formally, opening the path to formulate the renormalization of a wide range of many-body truncation schemes in the future.

Théorie des champs effectifs

Théorie quantique à N corps

Renormalisation

Matière nucléaire

Structure nucléaire

Effective field theory

Quantum many-Body theory

Renormalization

Nuclear matter

Nuclear structure

Recherche de la désintegration du boson de Higgs en deux leptons taus dans l'expérience ATLAS / Search for the Higgs boson decay into a pair of taus in ATLAS

Hariri, Faten

30 October 2015

Au LHC, l'un des buts essentiels à savoir était de trouver la dernière pièce manquante du modèle standard (MS), i.e. le boson de Higgs (H). La recherche fut couronnée de succès avec les données prises en 2012 et la découverte d'une nouvelle particule scalaire de masse ~126 GeV, se désintégrant en deux bosons (deux photons ou deux bosons électrofaibles ZZ or W+W-). Pour vérifier la compatibilité de la nouvelle particule avec les prédictions du MS, son couplage aux fermions devait être établi, ce qui motiva la recherche du Higgs dans le mode de désintégration en deux leptons taus ayant un rapport d'embranchement important. Dans ATLAS, cette analyse est divisée en trois canaux selon le mode de désintégration des leptons taus. Le travail présenté dans cette thèse concerne le canal “lepton-hadron”, où l'un des taus de l'état final se désintègre leptoniquement en un muon ou un electron, alors que l'autre se désintègre hadroniquement. Les canaux de l'analyse H→tau+ tau- sont caractérisés par de larges valeurs de l'énergie transverse manquante (MET) dans l'état final et adoptent la même technique pour identifier le lepton tau. Dans cette thèse, une contribution importante, mettant en relief l'amélioration obtenue avec une nouvelle MET, est montrée. En utilisant les traces chargées pour estimer la composante “molle” de MET dans les événements issus de collisions p-p, la sensibilité à l'empilement (pile-up), inévitable dans les collisionneurs hadroniques à haute luminosité, est bien réduite. Les erreurs systématiques associées à la composante molle ont été évaluées et leur dependence sur les conditions de pile-up et de modélisation de l'événement a été étudiée pour différentes définitions de MET. Ceci contribuera à améliorer les futures analyses H→tau+ tau-. Dans l'analyse “lepton-hadron”, le bruit de fond dominant provient des événements dont un jet de hadrons est mal identifié comme un tau se désintégrant hadroniquement (“fake tau”). Le travail discuté montre en détail l'estimation de ce bruit de fond pour les deux configurations les plus sensibles aux événements de signal H, i.e. les événements produits avec un Higgs bien boosté ou ceux produits par fusion de deux bosons vecteurs (mode VBF). L'état final de ces derniers est caractérisé par deux jets bien séparés en pseudorapidité, répartis sur les deux hemisphères, produits en association avec les produits de désintégration du H. Enfin, cette thèse rapporte une dernière contribution utilisant la théorie effective des champs pour la production du boson de Higgs et pour estimer les couplages de ce dernier (HEFT), et explorer la nouvelle physique au delà du MS de façon indépendante du modèle théorique. Le travail consiste à tester et valider le modèle “tauDecay” dans le cadre d'une caractérisation du Higgs utilisant HEFT au sein de Madgraph5_aMC@NLO. Après avoir écrit un outil permettant de fusionner les fichiers de production et de désintégration du Higgs (utile surtout en travaillant avec une précision au niveau NLO), la validation du modèle a été faite de 3 façons indépendantes: avec la génération d' événements au niveau d'éléments de matrice directement, avec l'outil créé et en désintégrant les taus avec MadSpin. Ce nouvel outil est prêt à être utilisé durant le Run-II du LHC. / In the LHC project, one of the major goals was the search for the last missing piece of the standard model (SM), namely the Higgs boson (H). The quest was successful during the Run I data taking in 2012 with the discovery of a new scalar of mass ~126 GeV, compatible with the SM Higgs boson, and decaying to two bosons (either two photons or two electroweak vector bosons ZZ or W+W-). To complete the picture, one needed to establish the couplings of the new particle to fermions. This motivated the search for the decay mode into two tau leptons predicted with a high branching ratio.Inside the ATLAS collaboration, the analysis was divided into three channels according to the decay modes of the tau pair. The work reported in this Ph.D describes the “ lepton-hadron ” analysis where one tau lepton decays leptonically into an electron or a muon and the other decays hadronically. Common features of all three analyses are the identification of the tau lepton and the presence of large missing transverse energy (MET) due to the escaping neutrinos from the tau decays. An important contribution reported in this dissertation concerns the improvement brought by a new MET determination. By using charged tracks to estimate the contribution of the soft energy component produced in the proton-proton collision, the sensitivity to the overlayed events (“ pile-up ”), unavoidable in a high luminosity hadron collider, is very much reduced. The systematic uncertainties associated to this soft component were estimated, their dependence on physics modeling and pile-up conditions studied for various track-based MET definitions. It will contribute to an improved H→tau+ tau- analysis with future data.In the lepton-hadron H analysis, the dominant background comes from events where a hadronic jet is misidentified as a hadronic tau (“ fake-tau ”). The work reports in detail how this fake-tau background has been estimated in the two most sensitive event configurations predicted for the H signal i.e. events where the H boson is highly boosted or produced by fusion of vector bosons (VBF); VBF events are characterized by two forward and backward jets in addition to the H decay products.Finally, the thesis reports on a last contribution performed with the Higgs Effective Field Theory (HEFT) to study the H couplings and probe new physics beyond SM in a model independent way. The work consisted in testing and validating the “TauDecay” model in association with the Higgs characterization framework in Madgraph5_aMC@NLO. After implementing a tool to merge H production and decay in a single step (especially useful with NLO requirements), the validation was done in three different ways: direct matrix element generation, with the implemented merging tool and using MadSpin to decay taus. The combined package is ready for use in the LHC Run II context.

Atlas

Boson de Higgs

Lepton Tau

Energie transverse manquante

Théorie effective des champs (HEFT)

Atlas

Higgs boson

Tau lepton

Missing transverse energy

Higgs effective field theory (HEFT)

Effective Field Theory for Baryon Masses / Théorie effective des champs pour les masses des baryons

Ren, Xiulei

10 December 2015

La masse est une des propriétés les plus fondamentales de la matière. Comprendre son origine a longtemps été un sujet central en physique. D'après la physique nucléaire et la physique des particules modernes, la clef de ce problème réside dans la compréhension de l’origine de la masse du nucléon à partir de l’interaction forte. Avec le développement des technologies informatiques, la chromodynamique quantique sur réseau offre la possibilité de comprendre l’origine de la masse à partir des premiers principes. Cependant, dû aux ressources de calcul limitées, les masses obtenues à partir des calculs sur réseau doivent être extrapolées jusqu'au point physique. La théorie chirale des perturbations en tant que théorie effective des champs de QCD à basse énergie est une méthode indépendante de modèle permettant de comprendre l’interaction forte dans la région non perturbative et de guider les diverses extrapolations nécessaires pour passer du résultat lattice au résultat physique. Le but de cette thèse est donc d'utiliser la complémentarité entre QCD sur réseau et théorie chirale des perturbations afin d'étudier de façon systématique les masses des baryons. Nous étudions les masses de l'octet baryonique le plus léger dans le cadre de la théorie chirale covariante des perturbations pour les baryons. Nous utilisons la méthode "extended on mass shell" jusqu'à l'ordre trois fois sous dominant. Afin d'étudier les artefacts des calculs sur réseau dus à la taille finie de la boîte nous calculons les effets de volume fini. Adaptant la théorie chirale des perturbations à des fermions de Wilson nous obtenons aussi les effets de discrétisation dû au pas fini du réseau. Nous étudions de façon systématique toutes les données réseau en tenant à la fois de l'extrapolation au continu, des corrections de volume finie et de l'extrapolation chirale. Nous démontrons l'importance des corrections de volume fini dans la description des masses des baryons sur réseau. Par contre les effets de discrétisation sont de l'ordre de 1% jusqu'à l'ordre a² et peuvent donc être ignorés. De plus nous trouvons que toutes les données sur réseau prises en sont consistentes entre elles malgré des différences notables dans les procédures adoptées. Utilisant les formules chirales des masses des baryons nous prédisons de façon précise leurs termes sigma via le théorème de Feynman-Hellmann en analysant les données sur réseau les plus récentes. Les effets dus au pas du réseau, à la troncation de la série de perturbation chirale et à la violation d'isospin de l'interaction forte sont pris en pour la première fois. En particulier le terme sigma pion nucléon et le « strangeness sigma term » sont en accord avec les résultats réseau les plus récents. Au vue des succès rencontrés lors de l'étude de l'octet baryonique nous avons fait une analyse systématique des masses du décuplet baryonique le plus léger dans la théorie chirale covariante des perturbations pour les baryons en fittant de façon simultanée les données réseau n_f=2+1. Une bonne description à la fois des données réseau et des masses expérimentales est obtenue. De plus les termes sigma sont prédits. Enfin comprendre le spectre d'excitation des hadrons est encore un challenge. En particulier le spectre des baryons a une structure très inhabituelle, la résonance Roper (1440) de parité positive étant plus légère que l'état de parité négative N(1535). La plupart des études sur réseau suggère que les effets des log chiraux sont plus importants pour la masse de la Roper que pour celle des nucléons. Nous avons donc calculé la masse de cette résonance en théorie chirale des perturbations en tenant en de façon explicite des contributions du nucléon et du delta. Les contributions venant du mélange entre le nucléon et la Roper sont étudiées pour la première fois. Une première analyse de la masse de cette particule est présentée. / Mass is one of the most fundamental properties of matter. Understanding its origin has long been a central topic in physics. According to modern particle and nuclear physics, the key to this issue is to understand the origin of nucleon (lowest-lying baryon) masses from the nonperturbative strong interaction. With the development of computing technologies, lattice Quantum Chromodynamics simulations provide great opportunities to understand the origin of mass from first principles. However, due to the limit of computational resources, lattice baryon masses have to be extrapolated to the physical point. Chiral perturbation theory, as an effective field theory of low-energy QCD, provides a model independent method to understand nonperturbative strong interactions and to guide the lattice multiple extrapolations. Therefore, we present the interplay between lattice QCD and chiral perturbation theory to systematically study the baryon masses. In the SU(3) sector, we study the lowest-lying octet baryon masses in covariant baryon chiral perturbation theory with the extended-on-mass-shell scheme up to next-to-next-to-next-to-leading order. In order to consider lattice artifacts from finite lattice box sizes, finite-volume corrections to lattice baryon masses are estimated. By constructing chiral perturbation theory for Wilson fermions, we also obtain the discretization effects of finite lattice spacings. We perform a systematic study of all the latest n_f=2+1 lattice data with chiral extrapolation (m_q → m_q^phys.), finite-volume corrections (V→∞), and continuum extrapolation (a→0). We find that finite-volume corrections are important to describe the present lattice baryon masses. On the other hand, the discretization effects of lattice simulations up to O(a²) are of the order 1% when a≈0.1 fm and can be safely ignored. Furthermore, we find that the lattice data from different collaborations are consistent with each other, though their setups are quite different. Using the chiral formulas of octet baryon masses, we accurately predict the octet baryon sigma terms via the Feynman-Hellmann theorem by analyzing the latest high-statistics lattice QCD data. Three key factors --- lattice scale setting effects, chiral expansion truncations and strong-interaction isospin-breaking effects --- are taken into account for the first time. In particular, the predicted pion- and strangeness-nucleon sigma terms, sigma_πN=55(1)(4) MeV and sigma_sN =27(27)(4) MeV, are consistent with the most latest lattice results of nucleon sigma terms. With the success in the study of octet baryon masses, we also present a systematic analysis of the lowest-lying decuplet baryon masses in covariant baryon chiral perturbation theory by simultaneously fitting n_f=2+1 lattice data. A good description for both the lattice and the experimental decuplet baryon masses is achieved. The convergence of covariant baryon chiral perturbation theory in the SU(3) sector is discussed. Furthermore, the pion- and strangeness-sigma terms for decuplet baryons are predicted by the Feynman-Hellmann theorem. In addition, understanding the excitation spectrum of hadrons is still a challenge, especially the first positive-parity nucleon resonance, the Roper(1440). The baryon spectrum shows a very unusual pattern that the Roper state is lower than the negative-parity state N(1535). Most lattice studies suggest that the Roper mass exhibits much larger chiral-log effects than that of the nucleon. Therefore, we calculate the Roper mass in chiral perturbation theory by explicitly including the nucleon/Delta contributions. The mixed contributions between nucleon and Roper to the baryon masses are taken into account for the first time. A first analysis of lattice Roper masses is presented.

Lagrangiens chiraux

QCD sur réseau

Masses des baryons

Termes sigma

Théorie effective des champs

Chiral Lagrangians

Lattice QCD

Baryon Masses

Sigma terms

Effective field theory

Resumovaná chirální poruchová teorie a studium Kl4 rozpadů / Resumovaná chirální poruchová teorie a studium Kl4 rozpadů

Motloch, Pavel

January 2012

The F and G formfactors of Kl4 decays are calculated to O(p4 ) in isospin limit in Resummed Chiral Perturbation Theory. Formulae for reparametrization of low-energy constants L1 - L3 in terms of physical observables are derived. They are used to obtain values of these low-energy constants from recent experimental data, theoretical error of the result is estimated and dependence on parameters X, Z of spontaneous symmetry breaking of SU(3) × SU(3) chiral symmetry and quark mass ratio r is investigated. Convergence of the formfactors in Resummed Chiral Perturbation Theory is discussed and it is suggested that inclusion of σ as an explicit degree of freedom into Chiral Perturbation Theory could significantly improve overall covergence of chiral series. 1