Global ETD Search

51	Mesure des performances de reconstruction des électrons et recherche de Supersymétrie dans les canaux avec deux leptons de même charge dans les données du détecteur ATLAS Maurer, J. 20 September 2013 (has links) (PDF) Les trois première s ann ées de fonctionnement de l'exp erience ATLAS au LHC, aux r esultats fructueux, ont ouvert l'acc es a la physique expérimentale a l' échelle du TeV. Les travaux effectues dans ce contexte ont port e a la fois sur des aspects de performance (reconstruction des électrons) et d'analyse (recherche de nouvelle physique). La première partie est consacrées aux mesures in situ des e cacit es de reconstruction et d'identi cation des électrons. La méthodologie employée pour réaliser ces mesures dans les donn ées est pr esent ée en d étails ainsi que les méthodes d evelopp ées pour l'estimation du bruit de fond r ésiduel. La deuxi ème partie traite de la recherche de Supersym etrie dans les ev enements avec deux leptons ( électrons ou muons) de charges identiques, accompagné es de jets et eventuellement d' energie transverse manquante, bas ee sur l'ensemble des donn ees collect ees par ATLAS en 2012 (soit 21 fb$^{-1}$ a $\sqrt{s}$ = 8 TeV). Ces états fi naux sont particulièr ement appropries a la recherche de gluinos ou de squarks de troisi eme g en eration. Les principaux aspects de l'analyse sont d ecrits, notamment les m ethodes d'estimation des di erents bruits de fond. L'absence d'exc es dans les r egions de signal par rapport aux prédictions du Mod ele Standard est interpr et ée en termes de limites sur les masses des superpartenaires, dans le cadre de mod èles aux spectres de masse simpli fiés. Ainsi, dans les modes de d esint egrations etudi es, l'existence de gluinos de masse inférieure a 1 TeV, ou de sbottoms de masse inf érieure a 500 GeV, est exclue.
52	Aspects de théories supersymétriques unifiées en dimension supplémentaires Fichet, Sylvain 23 September 2011 (has links) (PDF) Bien que l'on ne sache pas (encore) quel phénomène unitarise la diffusion WLWL à l'échelle du TeV, les données indirecte actuelles favorise le boson de Higgs. Etant donné que cette particule scalaire pourrait être aussi lourde que la masse de Planck, comment peut-on expliquer sa légèreté ? La supersymmétrie (SUSY), brisée à l'échelle du TeV, peut effectuer cette stabilisation, et permettre du même coup l'existence de Théories de Grande Unifications (GUTs). Ces SUSY GUTs réalisées dans une dimension supplémentaire compactifiée, peuvent être particulièrement simples. De plus, elles peuvent être prises comme limite basse énergie d'une théorie de cordes. Cette thèse est consacrée à l'étude de tels modèles de SUSY GUTs. Nous avons étudié, développé et étendu certains aspects de la classe de modèle d'Unification Jauge-Higgs, et de la classe de modèle d'Unification Holographique. Différents aspects de la physique basse-énergie ont été étudiés, incluant spectre de masses, physique des saveur, matière noire, et phénoménologie au LHC. Supersymmetrie Brisure SUSY Orbifold GUT Saveurs Gauge-Higgs unification Statistiques Bayesiennes
53	Etude de l'identification de leptons tau pour la recherche de supersymétrie dans le cadre de l'expérience CMS au LHC Bodin, David 15 March 2012 (has links) (PDF) Ce mémoire de thèse présente une étude de l'identification des candidats tau par différents algorithmes dans les collisions pp au LHC et impliquant différents processus physiques : électrofaibles, production de quarks top, SUSY et QCD. Les leptons tau sont identifiés géométriquement dans la voie de désintégration hadronique car les jets issus de ces désintégrations sont généralement plus étroits et mieux isolés que les jets QCD. Une discrimination supplémentaire est appliquée en exigeant la présence d'un des modes de désintégration hadronique dominants du tau contenant un ou trois pions chargés et jusqu'à deux pions neutres. Les jets QCD produits en très grande quantité dans les collisions proton-proton du LHC constituent une source de bruit de fond importante pour les analyses impliquant l'identification de leptons tau. L'analyse des jets QCD produits dans le LHC pour les études de mauvaise identification porte sur 36 pb−1 de données enregistrées par le détecteur CMS pendant l'année 2010. Les efficacités d'identification et les taux de mauvaise identification nous révèlent une forte dépendance en les caractéristiques de l'évènement étudié : les efficacités sont globalement plus basses dans les évènements présentant une activité hadronique importante comme les évènements SUSY et tt que dans les évènements QCD mous et électrofaibles. Les effets de l'environnement sur l'identification de tau sont paramétrés à l'aide de deux variables globales : somme(ET) et la multiplicité de hadrons chargés. Les efficacités chutent typiquement de 80% entre les multiplicités de hadrons les plus faibles et le plus fortes. Lepton tau Jet QCD Identification de lepton tau Supersymétrie (SUSY) LHC CMS
54	Calorimeter-Based Triggers at the ATLAS Detector for Searches for Supersymmetry in Zero-Lepton Final States / Kalorimeterbasierte Trigger am ATLAS-Detektor für Suchen nach Supersymmetrie in Null-Lepton-Endzuständen Mann, Alexander 16 February 2012 (has links) No description available. 530 Physik Physics CERN Large Hadron Collider LHC ATLAS ATLAS-Detektor Supersymmetrie SUSY Null-Lepton-Kanal Trigger Triggereffizienz Bootstrap-Methode Triggerrate Modell fehlende transversale Energie Ausschlussgrenze CERN Large Hadron Collider LHC ATLAS detector Search Supersymmetry SUSY Zero-lepton channel Trigger efficiency Bootstrapping method Trigger rate Model Missing transverse energy Exclusion limit 33.56 33.50 33.05 RTM 000: Physik der Elementarteilchen RDE 000: Experimentalphysik
55	Supersymmetric Quantum Mechanics, Index Theorems and Equivariant Cohomology Nguyen, Hans January 2018 (has links) In this thesis, we investigate supersymmetric quantum mechanics (SUSYQM) and its relation to index theorems and equivariant cohomology. We define some basic constructions on super vector spaces in order to set the language for the rest of the thesis. The path integral in quantum mechanics is reviewed together with some related calculational methods and we give a path integral expression for the Witten index. Thereafter, we discuss the structure of SUSYQM in general. One shows that the Witten index can be taken to be the difference in dimension of the bosonic and fermionic zero energy eigenspaces. In the subsequent section, we derive index theorems. The models investigated are the supersymmetric non-linear sigma models with one or two supercharges. The former produces the index theorem for the spin-complex and the latter the Chern-Gauss-Bonnet Theorem. We then generalise to the case when a group action (by a compact connected Lie group) is included and want to consider the orbit space as the underlying space, in which case equivariant cohomology is introduced. In particular, the Weil and Cartan models are investigated and SUSYQM Lagrangians are derived using the obtained differentials. The goal was to relate this to gauge quantum mechanics, which was unfortunately not successful. However, what was shown was that the Euler characteristics of a closed oriented manifold and its homotopy quotient by U(1)n coincide. supersymmetry SUSY quantum mechanics index theorem path integral non-linear sigma model spin complex Chern-Gauss-Bonnet theorem Witten index equivariant cohomology Weil model Cartan model Other Physics Topics Annan fysik
56	(Super)symétries des modèles semi-classiques en physique théorique et de la matière condensée. Ngome Abiaga, Juste Jean-Paul 11 May 2011 (has links) (PDF) L'algorithme covariant de van Holten, servant à construire des quantités conservées, est présenté avec une attention particulière portée sur les vecteurs de type Runge-Lenz. La dynamique classique des particules portant des charges isospins est passée en revue. Plusieures applications physiques sont considerées. Des champs de type monopôles non-Abéliens, générés par des mouvements nucléaires dans les molécules diatomiques, introduites par Moody, Shapere et Wilczek, sont étudiées. Dans le cas des espaces courbes, le formalisme de van Holten permet de décrire la symétrie dynamique des monopôles Kaluza-Klein généralisés. La procédure est étendue à la supersymétrie et appliquée aux monopôles supersymétriques. Une autre application, concernant l'oscillateur non-commutatif en dimension trois, est également traitée. [PHYS:MPHY] Physics/Mathematical Physics Symétries algorithme de van Holtene tenseurs de Killing supersymétries SUSY vecteurs de Runge-Lenz quantités conservées monopôles non-abéliens monopôles Kaluza-Klein metriques TAUB-NUT symétries dynamiques oscillateur non-commutatif mécanique non-commutative théorie des champs phase de Berry monopôle de Dirac
57	Flavor and Dark Matter Issues in Supersymmetric Models Chowdhury, Debtosh January 2013 (has links) (PDF) The Standard Model of particle physics attempts to unify the fundamental forces in the Universe (except gravity). Over the years it has been tested in numerous experiments. While these experimental results strengthen our understanding of the SM, they also point out directions for physics beyond the SM. In this thesis we assume supersymmetry (SUSY) to be the new physics beyond the SM. We have tried to analyze the present status of low energy SUSY after the recent results from direct (collider) and indirect (flavor, dark matter) searches .We have tried to see the complementarity between these apparently different experimental results and search strategies from the context of low energy SUSY. We show that such complementarity does exist in well-defined models of SUSY breaking like mSUGRA, NUHM etc. The first chapter outlines the present status of the SM and discusses about the unanswered questions in SM. Keeping SUSY as the new physics beyond the SM, we also detail about its present experimental status. Chapter1 ends with the motivation and comprehensive description about each chapter of the thesis. In chapter2, we present an introduction to formal structure of SUSY algebra and the structure of MSSM. One of the such complementarities we have studied is between flavor and dark matter. In general flavor violation effects are not considered when studying DM regions in minimal SUSY models like mSUGRA. If however flavor violation does get generated through non-minimal SUSY breaking sector, one of the most susceptible regions would be the co-annihilation region for neutralino DM. In chapter 3 we consider flavor violation in the sleptonic sector and study its implications on the stau co-annihilation region. In this work we have taken flavor violation between the right-handed smuon (˜µR) and stau (˜τR). Due to this flavor mixing the lightest slepton (ĺ1) is a ﬂavor mixed state. We have studied the effect of such ĺ11’s in the ‘stau co-annihilation’ region of the parameter space, where the relic density of the neutralinos gets depleted due to efficient co-annihilation with the staus. Limits on the flavor violating insertion in the right-handed sleptonic sector mainly comes from BR(τ → µγ). These limits are weak in some regions of the Parameter space where cancellations happen with in the amplitudes. We look for overlaps in parameter space where both the co-annihilation condition as well as the cancellations with in the amplitudes occur. We have shown that in models with non-universal Higgs boundary conditions (NUHM) overlap between these two regions is possible. The effect of flavor violation is two fold: (a) It shifts the co-annihilation regions towards lighter neutralino masses and (b) the co-annihilation cross sections would be modified with the inclusion of flavor violating diagrams which can contribute significantly. In the overlap regions, the flavor violating cross sections become comparable and in some cases even dominant to the flavor conserving ones. A comparison among the different flavor conserving and flavor violating channels, which contribute to the neutralino annihilation cross-section, is presented. One of the challenges of addressing quantitatively the complementarity problems is the lack of proper spectrum generator (numerical tools which computes SUSY sparticle spectrum in the presence of flavor violation in the sfermionic sector). For the lack of a publicly available code which considers general flavor violating terms in the renormalization group equations (RGE) we have developed a SUSY spectrum calculator, named as SuSeFLAV .It is a code written in FORTRAN language and calculates SUSY particle spectrum (with in the context of gravity mediation) in type I seesaw, in the presence of heavy right handed neutrinos (RHN). SuSeFLAV also calculates the SUSY spectrum in other type of SUSY breaking mechanisms (e.g. gauge mediation). The renormalization group (RG) flow of soft-SUSY breaking terms will generate large off-diagonal terms in the slepton sector in the presence of this RHNs, which will give rise to sizable amount of flavor violating (LFV) decays at the weak scale. Hence, in this code we also calculate the different rare LFV decays like, µ → eγ, τ → µγ etc. In SuSeFLAV the user has the freedom to choose the scale of the RHNs as well as the mixing matrix in neutrino sector. It is also possible to choose the values of the SUSY breaking input parameters at the user defined scale. The details of this package is discussed in chapter 4. Many of the present studies of complementarity between the direct and indirect searches are inadequate to address realistic scenarios, where SUSY breaking could be much more general compared to the minimal models. The work in this thesis is a step to wards this direction. Having said that, in the present thesis we have considered modifications of popular models with either explicit flavor violating terms (in some sectors) or sources of flavor violation through new particles and new couplings motivated by strong phenomenological reasons like neutrino masses. It should be noted however, the numerical tool which has been developed during the thesis can be used to address more complicated problems like with complete flavor violation in models of SUSY breaking. One of the popular mechanisms of neutrino mass generation is the so called Seesaw Mechanism. Depending on the extra matter sector present in the theory there are three basic types of them. The type I seesaw, which has singlet bright-handed neutrinos, the type II seesaw contains scalar triplets and type III seesaw has additional fermionic triplets. One of the implications of the seesaw mechanism is flavor violation in the sfermionic sector even in the presence of flavor universal SUSY breaking. This leads to a complementarity between flavor experiments and direct SUSY searches at LHC. With the announcement of the results from the reactor neutrino oscillation experiments, the reactor mixing angle (θ13) in the neutrino mixing matrix (PMNS matrix) gets fixed to a rather large non-zero value. In SO (10) GUT theories neutrino Yukawa couplings of type I seesaw gets related to the up-type fermion sector of the SM. In chapter 5 we update the status of SUSY type I seesaw assuming SO (10)- like relations for neutrino Dirac Yukawa couplings and two cases of mixing, one large, PMNS-like, and another small, CKM-like, are considered. It is shown that for the large mixing case, only a small range of parameter space with moderate tan β is still allowed. It is shown that the renormalization group induced flavor violating slepton mass terms are highly sensitive to the Higgs boundary conditions. Depending on the choice of the parameters, they can either lead to strong enhancements or cancellations with in the flavor violating terms. We have shown that in NUHM scenario there could be possible cancellations which relaxes the severe constraints imposed by lepton flavor violation compared to mSUGRA. We further updated the flavor consequences for the type II seesaw in SUSY theories. As mentioned previously in type II seesaw neutrino mass gets generated due to exchange of heavy SU (2) L triplet Higgs field. The ratio of lepton flavor violating branching ratios (e.g. BR(τ → µγ) /BR (µ → eγ) etc.) are functions of low energy neutrino masses ans mixing angles. In chapter 6 we have analyzed how much these ratios become, after the experimental measurement of θ13, in the whole SUSY parameter space or in other words how much these ratios help to constrain the SUSY parameter space. We compute different factors which can affect this ratios. We have shown that the cMSSM-like scenarios, in which slepton masses are taken to be universal at the high scale, predict 3.5 BR(τ → µγ) / BR(µ → eγ) 30 for normal hierarchical neutrino masses. We Show that the current MEG limit puts severe constraints on the light sparticle spectrum in cMSSM-like model for seesaw scale with in1013 - 1015 GeV. These constraints can be relaxed and relatively light sparticle spectrum can be still allowed by MEG result in a class of models in which the soft mass of triplet scalar is taken to be non-universal at the GUT scale. In chapter 7 we have analyzed the effect of largen eutrino Yukawa couplings on the supersymmetric lightest Higgs mass. In July 2012, ATLAS and CMS collaboration have updated the Higgs search in LHC and found an evidence of a scalar particle having mass around 125 GeV. The one-loop contribution to Higgs mass mainly depends on the top trilinear couplings (At), the SUSY scale and the top Yukawa (Yt). Thus in models with extra large Yukawa couplings at the high scale like the seesaw mechanism ,the renormalization scaling of the At parameter can get significantly affected. This in turn can modify the light Higgs mass at the weak scale for the same set of SUSY parameters. We have shown in type I seesaw with (Yν ~ 3Yu) the light Higgs mass gets reduced by 2 - 3 GeV in most of the parameter rspace. In other words the SUSY scale must be pushed high enough to achieve similar Higgs mass compared to the cMSSM scenario. We have got similar effect in SUSY type III seesaw scenario with (Yν ~Yu) at the GUT scale. In chapter 8 we summarize the results of the thesis and discuss the possible future directions. Particle Physics Standard Model Dark Matter Supersymmetry Supersymmetric Models Suppersymmetric Seesaw Models Particles (Nuclear Physics) - Flavor Suppersymmetry Flavor Minimal Supersymmetric Standard Model Flavored Co-annihilation Particle Physics - Standard Model Light Higgs Mass SUSY SUSEFLAV Seesaw High Energy Physics
58	Field Theoretic Lagrangian From Off-shell Supermultiplet Gauge Quotients Katona, Gregory 01 January 2013 (has links) Recent efforts to classify off-shell representations of supersymmetry without a central charge have focused upon directed, supermultiplet graphs of hypercubic topology known as Adinkras. These encodings of Super Poincare algebras, depict every generator of a chosen supersymmetry as a node-pair transformtion between fermionic bosonic component fields. This research thesis is a culmination of investigating novel diagrammatic sums of gauge-quotients by supersymmetric images of other Adinkras, and the correlated building of field theoretic worldline Lagrangians to accommodate both classical and quantum venues. We find Ref [40], that such gauge quotients do not yield other stand alone or "proper" Adinkras as afore sighted, nor can they be decomposed into supermultiplet sums, but are rather a connected "Adinkraic network". Their iteration, analogous to Weyl's construction for producing all finite-dimensional unitary representations in Lie algebras, sets off chains of algebraic paradigms in discrete-graph and continuous-field variables, the links of which feature distinct, supersymmetric Lagrangian templates. Collectively, these Adiankraic series air new symbolic genera for equation to phase moments in Feynman path integrals. Guided in this light, we proceed by constructing Lagrangians actions for the N = 3 supermultiplet YI /(iDI X) for I = 1, 2, 3, where YI and X are standard, Salam-Strathdee superfields: YI fermionic and X bosonic. The system, bilinear in the component fields exhibits a total of thirteen free parameters, seven of which specify Zeeman-like coupling to external background (magnetic) fluxes. All but special subsets of this parameter space describe aperiodic oscillatory responses, some of which are found to be surprisingly controlled by the golden ratio, [phi] = 1.61803, Ref [52]. It is further determined that these Lagrangians allow an N = 3 - > 4 supersymmetric extension to the Chiral-Chiral and Chiral-twistedChiral multiplet, while a subset admits two inequivalent such extensions. In a natural proiii gression, a continuum of observably and usefully inequivalent, finite-dimensional off-shell representations of worldline N = 4 extended supersymmetry are explored, that are variate from one another but in the value of a tuning parameter, Ref [53]. Their dynamics turns out to be nontrivial already when restricting to just bilinear Lagrangians. In particular, we find a 34-parameter family of bilinear Lagrangians that couple two differently tuned supermultiplets to each other and to external magnetic fluxes, where the explicit parameter dependence is unremovable by any field redefinition and is therefore observable. This offers the evaluation of X-phase sensitive, off-shell path integrals with promising correlations to group product decompositions and to deriving source emergences of higher-order background flux-forms on 2-dimensional manifolds, the stacks of which comprise space-time volumes. Application to nonlinear sigma models would naturally follow, having potential use in M- and F- string theories. Supersymmetry superspace supermultiplet adinkra automata adiankraic tensor product decomposition group theoretic lorentz group su(2) so(3) gauge quotient isomorphism surjective bijective image mapping indefinite adiankraic network sequence super poincare group haag lopuszanski sohnius theorem string theory m theory f theory nonlinear sigma model (numerical) algebraic geometry algebraic paradigms worldsheet worldsheet stacks supersymmetric lagrangians ansatz templates super potentials quantum mechanics field theory fermionic bosonic (super) zeeman background flux fields supergravity superfields young tableaux susy tableaux controlled chaos supercharge continuum chiral chiral twisted chiral Physics

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