Top-Quark and Charged Higgs Boson Production at Hadron Colliders : Data Analysis at the DØ Experiment and Simulations for the ATLAS Detector

Gollub, Nils

January 2005

This thesis treats two different projects, both aiming at experimental tests at hadron colliders of some specific predictions of the Standard Model (SM) of particle physics and of its Minimal Supersymmetric extension (MSSM). The thesis is based on four papers. Papers I-III study the discovery potential for a heavy charged Higgs boson of the ATLAS experiment at the Large Hadron Collider (LHC). Charged Higgs bosons are part of the Higgs sector in many extensions to the SM and their detection would be an unambiguous sign of new physics. If the charged Higgs boson is heavier than the top quark, its dominant decay mode is into a top and a bottom quark. Searches in this decay channel at ATLAS are difficult mainly due to the large top-quark pair-production background. The possible gain obtained when requiring 4 b-tagged jets for the signal events is studied, but no significant improvement compared to an analysis requiring 3 b-tagged jets is found. If the masses of supersymmetric particles are sufficiently small, heavy charged Higgs bosons can decay into a chargino-neutralino pair. We show that in this decay channel charged Higgs bosons can be detected, given a favourable choice of parameters governing the MSSM. In a large-mass-splitting MSSM scenario, the charged Higgs decay into a W boson and a neutral Higgs can have a large branching fraction. We conclude, however, that charged Higgs searches in this decay channel are made difficult by a large, irreducible SM background. Paper IV describes a measurement of the top-quark pair production cross-section performed with the DØ detector at the Tevatron collider. Signal events in the muon+jets decay channel are selected using topological event characteristics and a preliminary result of σ(ttbar)=3.8 +1.1-1.1(stat) +0.9-0.8(syst) +0.3-0.2(lumi) pb is obtained using an integrated luminosity of 363/pb.

Elementary particle physics

ATLAS

LHC

charged Higgs boson

MSSM

D0

Tevatron

top quark

elementary particle physics

Elementarpartikelfysik

Elementary particle physics

Elementarpartikelfysik

Topics in N = Yang-Mills theory

Peng, Zongren

19 October 2012

Cette thèse décrit quelques développements dans les techniques de calcul des amplitudes de diffusion en théorie supersymétrique de champ de jauge . L'accent est mis sur les relations de récurrence on-shell et sur l'utilisation de méthodes d'unitarité pour des calculs de boucle. En particulier, la récurrence on-shell est liée aux règles BCFW pour calculer les amplitudes de jauge au niveau des arbres. Les combinaisons de techniques de coupe d'unitarité et la récurrence sont utilisées pour calculer les amplitudes de boucle, et finalement, à partir des amplitudes, pour obtenir la fonction de corrélation énergie-énergie en théorie de super-Yang-Mills N = 4 à l'aide de la représentation de Mellin-Barnes. Dans le dernier chapitre, nous tentons de trouver un contour convergent pour les intégrales de Mellin Barnes en multi-dimension obtenu par une certaine approximation d'un contour de phase stationnaire.

[PHYS:MPHY] Physics/Mathematical Physics

scattering amplitudes

phase space integral

Mellin-Barnes representation

stationary phase contour

supersymmetric Yang-Mills theory

decay of Higgs Boson

Measurements of Angular Correlations in Minimum Bias Events and Preparatory Studies for Charged Higgs Boson Searches at the Tevatron and the LHC

Bélanger-Champagne, Camille

January 2011

Studies of minimum bias events at colliders probe the behavior of QCD in the non-perturbative regime. The phenomenology of events in this regime is described by empirical models that take many parameters, which all need to be tuned to the observed data. Measurements based on angular correlations between the highest transverse momentum charged particle track and the other charged particle tracks in collision events can, because of their robustness against experimental and detector effects, be a component of the tuning inputs for the models. We measure such observables in a variety of pseudorapidity ranges and at many center-of-mass energies at DØ and ATLAS. We observe that such observables are poorly described by current models and tunes that are used to produce simulated event samples, making them valuable information for the tuning process. The Matrix Element method is a powerful analysis tool to extract precise measurements from data samples of limited statistics. We have investigated the potential of the Matrix Element method to measure the mass of the charged Higgs in the exclusive decay H±→τ±ν→e±+3ν when produced in top quark decays at the Tevatron, with emphasis on the construction of transfer functions in the τ decay chain. We concluded that the τ decay chain can be successfully parametrized via a transfer function and that the method has the potential to provide an accurate charged Higgs mass measurement in this channel. Triggering on τ leptons is a key component for many beyond the Standard Model searches at ATLAS, such as the search for the charged Higgs boson. Events containing Z bosons can be used to measure the efficiency of the ATLAS τ hadronic-decay trigger. We have used a tag-and-probe method on simulated Z boson decays to 2 τ leptons where one decays to a μ while the other decays hadronically. The μ is used as the tag and the τ side is probed. We demonstrated that the efficiency of the τ hadronic-decay trigger can be accurately measured with this method using the first 100 pb-1 of ATLAS data. / Felaktigt tryckt som Digital Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science and Technology 732

ATLAS

D0

LHC

Tevatron

CERN

Fermilab

QCD

Monte Carlo tunes

Matrix Element method

Charged Higgs boson

Tau lepton

Trigger

Physics

Fysik

Elementary particle physics

Elementarpartikelfysik

Speculative Physics: the Ontology of Theory and Experiment in High Energy Particle Physics and Science Fiction

Lee, Clarissa Ai Ling

January 2014

<p>The dissertation brings together approaches across the fields of physics, critical theory, literary studies, philosophy of physics, sociology of science, and history of science to synthesize a hybrid approach for instigating more rigorous and intense cross-disciplinary interrogations between the sciences and the humanities. I explore the concept of speculation in particle physics and science fiction to examine emergent critical approaches for working in the two areas of literature and physics (the latter through critical science studies), but with the expectation of contributing new insights to media theory, critical code studies, and also the science studies of science fiction. </p><p>There are two levels of conversations going on in the dissertation; at the first level, the discussion is centered on a critical historiography and philosophical implications of the discovery Higgs boson in relation to its position at the intersection of old (current) and the potential for new possibilities in quantum physics; I then position my findings on the Higgs boson in connection to the double-slit experiment that represents foundational inquiries into quantum physics, to demonstrate the bridge between fundamental physics and high energy particle physics. The conceptualization of the variants of the double-slit experiment informs the aforementioned critical comparisons. At the second level of the conversation, theories are produced from a close study of the physics objects as speculative engine for new knowledge generation that are then reconceptualized and re-articulated for extrapolation into the speculative ontology of hard science fiction, particularly the hard science fiction written with the double intent of speaking to the science while producing imaginative and socially conscious science through the literary affordances of science fiction. The works of science fiction examined here demonstrate the tension between the internal values of physics in the practice of theory and experiment and questions on ethics, culture, and morality.</p><p>Nevertheless, the dissertation hopes to show the beginnings of a possibility, through the contentious but generative space provided by speculative physics, to produce more cross-collaborative thinking between physics as represented by the hard sciences, and science fiction representing the objects of literary enterprise and creative evolution.</p> / Dissertation

Literature

Particle physics

Philosophy of science

foundations of physics

hard science fiction

higgs boson

high energy particle physics experiment

history of quantum physics

Monte Carlo

Phenomenology of Higgs Bosons Beyond the Standard Model

Wouda, Glenn

January 2015

After a long history of searches, a Higgs boson H was discovered by the ATLAS and the CMS experiments at the Large Hadron Collider (LHC) in 2012. Its properties fit well the ones predicted by the Standard Model (SM) of particle physics. However, the SM can not explain other established properties of Nature, such as the existence of Dark Matter. For this reason, models beyond the SM should be considered. Such models often predict the existence of several Higgs bosons and this thesis explores some of those models. In particular, the possibility to discover a charged Higgs boson, which would be a clear sign of physics beyond the SM, is studied. A commonly studied extension of the SM is the framework of two-Higgs-doublet models (2HDMs), where there are five Higgs bosons. By confronting the parameter spaces of some 2HDMs with publically available data from the LHC, the prospects for finding the 2HDM Higgs bosons is presented through the calculation of production cross sections and decay branching ratios in various channels. A new kind of 2HDM, called the Stealth Doublet Model is presented and the properties of the Higgs bosons are studied. In this model, it is shown that in particular the properties of the charged Higgs boson H± have new features not exhibited in earlier studied models. Within the parameter space compatible with the LHC results, the production cross section for H± can be sizeable enough to be experimentally observed. Finally, the discovery prospects at the LHC, for a H± in the pp → tH± process, with the decays H± → HW± and H → bb, is studied in various models beyond the Standard Model. It is shown that for the supersymmetric models, this channel is beyond the discovery reach of the LHC. In some of the other studied models, in particular the Aligned 2HDM, the situation is improved and the channel is feasible.

Particle physics

The Standard Model

Higgs bosons

Higgs mechanism

Beyond the Standard Model

Two Higgs Doublet Models

Charged Higgs boson

Higgs decays

Supersymmetry

Renormalization

LHC

Collider constraints

Hierarquia e naturalidade, uma visão completa do problema e suas possíveis soluções / Hierarchy and naturalness, a complete vision on the problem and its possible solutions

Ronqui, Caique Meira

05 February 2018

Submitted by CAIQUE MEIRA RONQUI null (cmeiraronqui@gmail.com) on 2018-04-05T02:12:52Z No. of bitstreams: 1 mestrado.pdf: 19390845 bytes, checksum: a1c62d106479845bd9047a91fbad6b1f (MD5) / Approved for entry into archive by Hellen Sayuri Sato null (hellen@ift.unesp.br) on 2018-04-05T16:59:15Z (GMT) No. of bitstreams: 1 ronqui_cm_me_ift.pdf: 19390845 bytes, checksum: a1c62d106479845bd9047a91fbad6b1f (MD5) / Made available in DSpace on 2018-04-05T16:59:15Z (GMT). No. of bitstreams: 1 ronqui_cm_me_ift.pdf: 19390845 bytes, checksum: a1c62d106479845bd9047a91fbad6b1f (MD5) Previous issue date: 2018-02-05 / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Elaboramos uma revisão de como o problema da hierarquia aparece na teoria Eletrofraca, pois entendemos que esse assunto ganhou importância e merece atenção especial. Apesar disso, notamos que muitos conceitos necessários para compreender a origem do problema encontram-se espalhados em diferentes livros e artigos, dificultando o acesso à informação. Por isso, apresentamos neste trabalho esses principais conceitos de maneira consolidada. / We develop a review on how the hierarchy problem appears in the Electroweak theory. Nowadays we think that this problem is greater in importance than it was in the past, so it deserves special attention, but we noticed several concepts needed to understand the problem are scattered in different books and papers, which hinders full access to information. Therefore, we intend to present the key subjects in a single document, because we didn't find similar work in previous studies. / 2015/19572-0

Naturalidade

Bóson de Higgs

Supersimetria

Naturalness

Problema da hierarquia

Divergência quadrática

Física além do modelo padrão

Running couplings

Hierarchy problem

Beyond standard model

Higgs boson

Calculs de précision dans un modèle supersymétrique non minimal / Precision calculations in the next-to-minimal supersymmetric extension of the standard model

Bizouard, Vincent

30 October 2015

Malgré les nombreux succès du Modèle Standard de la physique des particules, plusieurs éléments montrent qu'il ne s'agit que d'une théorie effective à basse énergie. En effet, la masse des neutrinos et la matière noire ne sont pas expliqués dans ce modèle, qui ne prend pas en compte non plus la gravitation dont la version quantique n'a toujours pas été établie. De plus, les divergences quadratiques des corrections à la masse du boson de Higgs dans ce modèle pose un problème de naturalité. Tous ces problèmes indiquent la nécessité de trouver une nouvelle physique, qui doit être décrite par une extension du Modèle Standard. Une des possibilités est d'ajouter une nouvelle symétrie de l'espace-temps, la Supersymétrie, reliant les bosons et le fermions. Dans son extension miminale, la Supersymétrie permet déjà de résoudre le problème de la matière noire en proposant un candidat naturel, le neutralino, et de supprimer les dangereuses corrections quadratiques à la masse du boson de Higgs.Dans cette thèse, les travaux se sont concentrés sur une extension supersymétrique non minimale du Modèle Standard, le NMSSM. Afin de confronter la théorie aux expériences, il est nécessaire de calculer précisément les différentes observables. Ces calculs étant complexes, il est naturel de les automatiser, ce qui a été réalisé à l'aide du code SloopS. Avec ce code, nous avons pu dans un premier temps nous intéresser à la désintégration du boson de Higgs en un photon et un boson Z. Ce mode de désintégration a la particularité d'être généré directement à une boucle, ce qui le rend sensible à la présence de nouvelles particules. Il a commencé à être mesuré lors du Run 1 du LHC et les données vont continuer à s'accumuler avec le Run actuel (Run 2). La possibilité d'une déviation du signal mesuré avec celui prédit par le modèle Standard, requiert donc une analyse théorique préliminaire, que nous avons effectué dans le cadre du NMSSM. Nous nous sommes ensuite intéressé aux corrections radiatives pour des processus plus généraux.Il a d'abord fallu réaliser et implémenter la renormalisation dans SloopS afin de réguler les divergences apparaissant dans ces calculs à une boucle. Puis nous avons pu utiliser le modèle renormalisé pour calculer les corrections radiatives aux masses et largeurs de désintégration des différentes particules supersymétriques et des bosons de Higgs, en comparant les résultats obtenus dans différents schémas de renormalisation. / Although the Standard Model has been very successful so far, it presents several limitations showing that it is only an effective low energy theory. For example, the neutrino masses or dark matter are not predicted in this model. Gravity is also not taken into account and we expect that it plays a quantum role at energies around the Planck mass. Moreover, radiative corrections to the Higgs boson mass suffer from quadratic divergences. All these problems underline the fact that new physics should appear, and this has to be described by an extension of the Standard Model. One well-motivated possibility is to add a new space-time symetry, called Supersymmetry, which link bosons and fermions. In its minimal extension, Supersymmetry can already solve the dark matter paradox with a natural candidate, the neutralino, and provide a cancellation of the dangerous quadratic corrections to the Higgs boson mass.In this thesis, we focussed on the Next-to-Minimal SuperSymmetric extension of the Standard Model, the NMSSM. To compare theoretical predictions with experiments, physical observables must be computed precisely. Since these calculations are long and complex, automatisation is desirable. This was done by developping SloopS, a program to compute one-loop decay width and cross-section at one-loop order in Supersymmetry. With this code, we first analysed the decay of the Higgs boson in a photon and a Z boson. This decay mode is induced at the quantum level and thus is an interesting probe of new physics. Its measurement has been started during Run 1 of the LHC and is continued now in Run 2. The possibility of deviation between the measured signal strength and the one predicted by the Standard Model motivates a careful theoretical analysis in beyond Standard Models which we realised within the NMSSM. Our goal was to compute radiative corrections for any process in this model. To cancel the ultraviolet divergences appearing in higher order computations, we had to carry out and implement the renormalisation of the NMSSM in SloopS. Finally, it was possible to use the renormalised model to compute radiatives corrections to masses and decay widths of Higgs bosons and supersymmetric particles in the NMSSM and to compare the results between different renormalisation schemes.

Supersymétrie

Renormalisation

Boson de Higgs

Calculs de precision

Physique des particules

Extensions du modele standard

Supersymmetry

Renormalisation

Higgs boson

Precision calculations

Particle physics

Beyond standard model

530

Higgs boson phenomenology beyond the Standard Model / Phénoménologie des bosons de Higgs au-delà du Modèle Standard

Le Corre, Solène

13 March 2018

Suite à la découverte du boson de Higgs en Juin 2012 au Large Hadron Collider, l’accélérateur de particules situé à la frontière franco-suisse, l’étude du secteur scalaire des particules élémentaires a connu un regain d’intérêt. En particulier, le boson de Higgs étant une particule clef au sein du Modèle Standard des particules, les expérimentateurs étudient ses propriétés avec beaucoup de soin.Le Modèle Standard, dont le but est de décrire les interactions entre particules élémentaires, n’est cependant pas une théorie complète. En effet, en plus de quelques problèmes d’ordre théorique, certains phénomènes observés expérimentalement ne peuvent pas être expliqués par ce modèle. Les théoriciens en physique des particules cherchent donc à établir une nouvelle théorie venant le compléter et permettant d’expliquer pleinement les observations expérimentales.Cette thèse est axée sur l’étude du secteur scalaire de modèles au-delà du Modèle Standard des particules. J’ai plus particulièrement travaillé sur un modèle à deux doublets de Higgs – modèle purement effectif mais qui peut être inclus dans d’autres théories plus abouties – ainsi que sur un modèle construit comme une combinaison entre les théories déjà très proches de techicouleur et de Higgs composites, et ce dans le cas particulier d’une brisure de symétrie SU (4) ? Sp(4). J’ai étudié ce dernier modèle d’un point de vue effectif mais la théorie complète est capable depallier un certain nombre des limitations du Modèle Standard.Chacun de ces modèles inclut un secteur scalaire plus riche que celui du Modèle Standard et contient au moins une particule pouvant être assimilée au boson de Higgs découvert au LHC. J’ai réalisé l’étude phénoménologique de chacun de ces modèles et les ai confrontés à des contraintes tant théoriques qu’expérimentales – en particulier celles obtenues grâce aux études les plus récentes, portant sur le boson de Higgs et sur de potentielles particules scalaires additionnelles, réalisées par les équipes du LHC. Cela m’a permis de contraindre les paramètres libres des modèles et en particulier de restreindre les valeurs possibles pour la masse des autres particules scalaires, permettant de mieux cibler les zones où ces nouvelles particules, si elles existent, pourraient être détectées au LHC.Ces deux théories, bien que très contraintes par les données expérimentales, ne sont toujours pas exclues par les contraintes expérimentales les plus récentes / Following the discovery of the Higgs boson in June 2012 at the Large Hadron Collider, the particle collider located beneath the France-Switzerland border, interest in the study of the scalar sector in elementary particle physics significantly increased. In particular, as the Higgs boson plays a very special role in the Standard Model of particle physics, experimentalists study its properties with great care.The goal of the Standard Model is to describe the interactions between elementary particles. However the theory is not quite complete. Indeed, in addition to some purely theoretical problems, a number of experimental observations cannot be explained by the Standard Model. Theorists are therefore looking for a more comprehensive theory able to fully explain the observations.This thesis is based on the study of the scalar sector of two different extensions of the Standard Model of particle physics. I have worked on the Two-Higgs Doublet Model – this model is purely effective but can be included in more comprehensive theories – as well as on a model based on a combination of Technicolor and Composite Higgs theories in the framework of the SU (4) ? Sp(4) symmetry breaking pattern. I studied the latter via an effective approach but the full theory is able to get rid of some of the pitfalls of the Standard Model.These two models include a scalar sector that is richer than the one found in the Standard Model and contain at least one particle which can be assimilated to the Higgs boson discovered at the LHC.I performed a phenomenological study for these two models and tested them against both theoretical and experimental constraints. In particular I used the latest studies on the 125 GeV Higgs boson and on possible additional scalars performed by the ATLAS and CMS collaborations. The application of all these constraints drastically reduced the available parameter space of the two models. In particular it narrowed the possible mass range of the additional scalars, allowing to know more accurately where to search them experimentally in order to prove or rule out their possible existence.As of today the two theories I worked on are still not excluded by the latest experimentaldata

Boson de Higgs

Phénoménologie

LHC

Scalaire

Higgs lourd

Higgs léger

Higgs chargé

Higgs boson

Phenomenology

LHC

Scalar particle

Heavy Higgs

Light Higgs

Charged Higgs

539.72

Search for the standard Higgs boson produced in association with a pair of top quark in the multi-leptons channel in the CMS experiment / Recherche du boson de Higgs standard produit en association avec une paire de quarks top dans le canal multi-leptons dans l'expérience CMS

Coubez, Xavier

15 September 2017

La découverte en 2012 de la dernière particule élémentaire prédite par le Modèle Standard, le boson de Higgs, a ouvert une nouvelle ère en physique des particules. L’un des objectifs est désormais de sonder les couplages du boson de Higgs aux autres particules afin de confirmer la validité du modèle. Le travail de cette thèse a porté dans un premier temps sur l’identification de jets issus de quark b dès le système de déclenchement. L’objectif est de permettre de sélectionner un millier d’événements parmi les quarante millions produits chaque seconde au LHC en identifiant des objets présents dans l’état final de processus de physique intéressants tels que la production associée d’un boson de Higgs se désintégrant en paire de quark b avec un boson Z se désintégrant en neutrinos non détectés. Dans un second temps, l’étude du couplage du boson de Higgs au quark top, particule la plus massive au sein du Modèle Standard a été réalisée. Après l’étude d’un bruit de fond important de la production associée d’un boson de Higgs et d’une paire de quarks top, une nouvelle méthode a été utilisée pour améliorer la discrimination entre le signal et les principaux bruits de fond. Cette analyse a conduit à la première évidence expérimentale du couplage entre le boson de Higgs et le quark top. / The discovery in 2012 of the last elementary particle predicted by the Standard Model, the Higgs boson, has opened a new era in particle physics. One of the objectives now is to probe the coupling of the Higgs boson to other particles in order to confirm the validity of the model. The work of this thesis focused initially on the identification of jets coming from b quark at trigger level. The goal is to allow for the selection of one thousand events among the forty million produced every second at the LHC, by identifiying objects present in the final states of interesting physics processes such as the associated production of a Higgs boson decaying in a pair of b quark with a Z boson decaying into undetected neutrinos. The work then moved to the study of the coupling of the Higgs boson to the quark top, most massive particle in the Standard Model. After a study of one of the important background of the associated production of the Higgs boson and a top quark pair, a new method called matrix element method has been used to improve the discrimination between signal and background. This analysis has led to the first experimental evidence of coupling between the Higgs boson and the top quark.

Physique des particules

Système de déclenchement

Identification de jets issus de quark b

Boson de Higgs

Couplage top-Higgs

Particle physics

Trigger

B jet identification

Higgs boson

Top-Higgs coupling

539.7

Le schéma de régularisation de Taylor-Lagrange, présentation et applications / The Taylor-Lagrange regularization scheme, introduction and applications

Mutet, Bruno

27 January 2011

Le schéma de régularisation de Taylor-Lagrange (TLRS) est basé sur la définition des champs en tant que distributions à valeurs d'opérateurs (OPVD). L'expression de ces OPVD implique des fonctions test qui, grâce à leurs propriétés (propriétés d'échelles, super-régularité), permettent d'étendre des distributions singulières à tout l'espace. Ce type de régularisation, que l'on peut qualifier de coupure ultra-douce, est efficace quelque soit le degré de divergence originel et produit des amplitudes finies dépendant d'une échelle intrinsèque sans dimensions. Enfin, ce schéma préserve les symétries du groupe de Poincaré et l'invariance de jauge. Après avoir présenté le formalisme TLRS, celui-ci est appliqué au calcul des corrections radiatives en QED ainsi qu'à celles à la masse du boson de Higgs dans le cadre du modèle standard de la physique des particules. Dans une dernière partie, il est appliqué au modèle de Yukawa dans le cadre de la dynamique sur le front de lumière. Les corrections radiatives et un calcul non-perturbatif d'états liés sont effectués. Ces exemples permettent de vérifier, d'une part, l'applicabilité de ce schéma dans différents cas, et d'autre part, de tester son respect des propriétés de symétrie des théories. / The Taylor-Lagrange regularization scheme (TLRS) is based on the definition of fields as operator valued distributions (OPVD). The expression of these OPVDs implies test functions which, thanks to their properties (scaling properties, super-regularity), allow to extend singular distributions to the whole space. This type of regularization, which could be qualified as an ultra-soft cut-off, is efficient for any order of divergences and produces finite amplitudes depending on an intrinsic dimensionless scale. Finally, this scheme respects the Poincaré group symmetries as well as gauge invariance. After an introduction to the TLRS, it is applied to the calculation of radiative corrections to QED and to the mass of the Higgs boson within the standard model of particle physics. In a last section, it is applied to the Yukawa model using the framework of light front dynamics. Radiative corrections and non-perturbative bound state are calculated. This examples allow to verify, on one hand, the applicability of the TLRS, and on the other hand to test its respect of the symmetry properties of the theories.

Théorie quantique des champs

Régularisation

Distributions

Front de lumière

Corrections radiatives

Boson de Higgs

Quantum field theory

Regularization

Distributions

Light front

Radiative corrections

Higgs boson