Measurements of Higgs boson properties in the four-lepton final state at sqrt(s) = 13 TeV with the CMS experiment at the LHC. / Mesure des propriétés du boson de Higgs dans l’état final à quatre leptons à √s = 13 TeV avec l’expérience CMS au LHC

Regnard, Simon

07 November 2016

Cette thèse présente une étude de la production de boson de Higgs dans les collisions proton-proton à sqrt(s) = 13 TeV enregistrées avec le détecteur CMS au Grand collisionneur de hadrons (LHC) du CERN, exploitant la voie de désintégration en une paire de bosons Z qui se désintègrent à leur tour en paires d’électrons ou de muons (H->ZZ->4l, l = e,mu).Ce travail s’inscrit dans le contexte du début du Run II du LHC, une nouvelle période de prise de données qui a commencé en 2015 après une interruption de deux ans. Ce redémarrage est marqué par une augmentation de l’énergie dans le centre de masse de 8 TeV à 13 TeV et un resserrement de l’espacement entre paquets de protons de 50 ns à 25 ns. Ces nouveaux paramètres augmentent à la fois la luminosité et placent des contraintes inédites sur le déclenchement, la reconstruction et l’analyse des données de collisions pp. Un effort important est donc consacré à l’amélioration et la réoptimisation du système de déclenchement de CMS pour le Run II, en mettant l’accent sur la reconstruction et la sélection des électrons et sur la préparation de chemins de déclenchement multi-leptons préservant une efficacité maximale pour le canal H->ZZ->4l.Dans un second temps, les algorithmes de sélection hors-ligne des électrons et des muons sont optimisés et leurs efficacités sont mesurées dans les données, tandis que la logique de sélection des candidats à quatre leptons est améliorée. Afin d’extraire des modes de production rares du boson de Higgs tels que la fusion de bosons vecteurs, la production par « Higgsstrahlung » VH et la production associée ttH, une nouvelle répartition des événements sélectionnés en catégories exclusives est introduite, fondée sur des discriminants utilisant le calcul d’éléments de matrice et l’étiquetage de saveur des jets.Les résultats de l’analyse des premières données à 13 TeV sont présentés pour des lots de données enregistrés en 2015 et au début de 2016, qui correspondent à des luminosités intégrées respectives de 2.8 fb-1 and 12.9 fb-1. Le boson de Higgs est redécouvert de façon indépendante à la nouvelle énergie. L’intensité du signal relative à la prédiction du modèle standard, la masse et la largeur de désintégration du boson sont mesurées, ainsi qu’un jeu de paramètres contrôlant les contributions des principaux modes de production attendus. Tous les résultats sont en bon accord avec les prévisions du modèle standard pour un boson de Higgs à 125 GeV, aux incertitudes de mesure près, ces dernières étant dominées par la composante statistique avec l’échantillon de données actuel. Enfin, une autre résonance se désintégrant en quatre leptons est recherchée à haute masse, et aucun excès significatif n’est observé. / This thesis reports a study of Higgs boson production in proton-proton collisions at sqrt(s) = 13 TeV recorded with the CMS detector at the CERN Large Hadron Collider (LHC), exploiting the decay channel into a pair of Z bosons that in turn decay into pairs of electrons or muons (H->ZZ->4l, l = e,mu).This work is carried out in the context of the beginning of Run II of the LHC, a new data-taking period that started in 2015, following a two-year-long shutdown. This restart is marked by an increase of the centre-of-mass energy from 8 TeV to 13 TeV, and a narrowing of the spacing of proton bunches from 50 ns to 25 ns. These new parameters both increase the luminosity and set new constraints on the triggering, reconstruction and analysis of pp collision events. Therefore, considerable effort is devoted to the improvement and reoptimization of the CMS trigger system for Run II, focusing on the reconstruction and selection of electrons and on the preparation of multilepton trigger paths that preserve a maximal efficiency for the H->ZZ->4l channel.Secondly, the offline algorithms for electron and muon selection are optimized and their efficiencies are measured in data, while the selection logic of four-lepton candidates is improved. In order to extract rare production modes of the Higgs boson such as vector boson fusion, VH associated production and ttH associated production, a new classification of selected events into exclusive categories is introduced, using discriminants based on matrix-element calculations and jet flavour tagging.Results of the analysis of first 13 TeV data are presented for two data sets recorded in 2015 and early 2016, corresponding to integrated luminosities of 2.8 fb-1 and 12.9 fb-1, respectively. A standalone rediscovery of the Higgs boson in the four-lepton channel is achieved at the new energy. The signal strength relative to the standard model prediction, the mass and decay width of the boson, and a set of parameters describing the contributions of its main predicted production modes are measured. All results are in good agreement with standard model expectations for a 125 GeV Higgs boson within the incertainties, which are dominated by their statistical component with the current data set. Finally, a search for an additional high-mass resonance decaying to four leptons is performed, and no significant excess is observed.

Boson de Higgs

Expérience CMS

Collisionneur LHC

Modèle standard

Interaction faible

Higgs boson

CMS experiment

LHC collider

Standard model

Weak interaction

From luminosity to cross-section measurements / Inclusive measurement of the ttbar cross-section using proton-proton collisions at √s =13.6 TeV with the ATLAS detector

Hügli, Cédrine

12 February 2025

Die Messung des inklusiven ttbar-Wirkungsquerschnitts bei 13.6 TeV wird anhand von 29 fb⁻¹ an Daten des ATLAS-Detektors am LHC aus dem Jahr 2022 präsentiert. Für diese Messung sind das Zählen der Ereignisse und die genaue Bestimmung der Luminosität erforderlich, wobei die Luminositätsunsicherheit die größte Unsicherheitsquelle darstellt. Die Luminositätsbestimmung erfolgt nach dem etablierten Verfahren aus Run 2 in drei Schritten: absolute Kalibrierung mit van der Meer Scans, Transfer dieser Kalibrierung auf die physikalischen Datenaufnahmebedingungen und Stabilitätsüberprüfung. Die vorläufige Luminositätsunsicherheit für 2022 beträgt 2.2 %, hauptsächlich bedingt durch den Kalibrierungstransfer und Nicht-Faktorisierbarkeits-Effekte. Der ttbar-Wirkungsquerschnitt wird mit der b-Jet-Zählmethode im Dilepton-Endzustand gemessen und ergibt sigma(ttbar) = 850 ± 3 (stat.) ± 18 (syst.) ± 20 (lumi.) pb, was 1.5 Sigma unter der Standardmodellvorhersage liegt. Das Verhältnis der Z-Produktion zum ttbar-Wirkungsquerschnitt, sensitiv auf das Gluon-zu-Quark-PDF-Verhältnis, beträgt R(ttbar/Z) = 1.145 ± 0.003 (stat.) ± 0.021 (syst.) ± 0.002 (lumi.) und stimmt mit dem Standardmodell überein. Zusätzlich wird das Verhältnis des Wirkungsquerschnitts bei 13.6 TeV zu 13 TeV gemessen: R(13.6/13) = 1.0253 ± 0.0347, 2.4 Sigma von der Vorhersage entfernt. Diese Ergebnisse unterstützen das Standardmodell und unterstreichen die Bedeutung präziser Luminositäts- und Wirkungsquerschnittsmessungen in der Teilchenphysik. / The inclusive ttbar cross-section measurement at 13.6 TeV, based on 29 fb⁻¹ of data recorded by ATLAS at the LHC in 2022, is presented. This measurement requires event counting and accurate luminosity determination, with luminosity uncertainty as the largest source of error. The luminosity calibration follows the established Run 2 procedure, involving three stages: absolute calibration via van der Meer scans, calibration transfer from specific scan conditions to physics data-taking conditions, and stability checks. The preliminary luminosity uncertainty for 2022 is 2.2%, mainly due to calibration transfer and non-factorisation effects. The ttbar cross-section is measured using b-jet counting in the dilepton final state, yielding sigma(ttbar) = 850 ± 3 (stat.) ± 18 (syst.) ± 20 (lumi.) pb, which is 1.5 sigma below the Standard Model prediction. The ratio of Z production to the ttbar cross-section, sensitive to the gluon-to-quark PDF ratio, is R(ttbar/Z) = 1.145 ± 0.003 (stat.) ± 0.021 (syst.) ± 0.002 (lumi.), consistent with the Standard Model. Additionally, the cross-section ratio between 13.6 TeV and 13 TeV is R(13.6/13) = 1.0253 ± 0.0347, 2.4 sigma from the predicted value. These results support the Standard Model and emphasize the importance of precise luminosity and cross-section measurements in particle physics.

Luminosität

Wirkungsquerschnitt

top Quark

LHC

ATLAS

Luminosity

Cross-section

top quark

LHC

ATLAS

530 Physik

ddc:530

A search for massive resonances decaying to top quark pairs and jet trigger performance studies with the ATLAS detector at the Large Hadron Collider

Fajardo, Luz Stella Gomez

17 July 2014

Diese Arbeit behandelt die Suche nach neuen Teilchen, die in Top-Quark-Paare zerfallen (t¯t). Die Analyse beruht auf Daten des ATLAS-Experiments von Proton- Proton-Kollisionen am LHC bei einer Schwerpunktsenergie von p s = 7 TeV und einer Gesamtluminosität von 2.05 fb−1. Hierzu wird der Lepton+Jets Endzustand im t¯t ! WbWb Zerfallskanal verwendet, worin ein W-Boson leptonisch und das andere hadronisch zerfällt. Das t¯t -Ereignis wird sowohl in aufgelösten als auch geboosteten Zerfallstopologien rekonstruiert. Zum ersten Mal werden die Korrelationen beider Kanäle in Form einer dritten Kategorie nutzbar gemacht, welche aus Ereignissen besteht, die in beiden Topologien selektiert wurden. Die Sensitivität der Analyse wird hierdurch erhöht. Obere Schranken bei 95% Vertrauensniveau auf den Wirkungsquerschnitt multipliziert mit der Zerfallsbreite für massive Zustände großer und kleiner Zerfallsbreite werden berechnet. Diese werden aus der Kombination der beiden Ansätze der t¯t -Rekonstruktion gewonnen. Für die Z0-Resonanz kleiner Breite reicht die beobachtete (erwartete) obere Grenze auf den Wirkungsquerschnitt von 4.85 (4.81) pb, für eine Masse von 0.6 TeV, bis 0.21 (0.13) pb, für eine Masse von 2 TeV. Eine schmale leptophobische Topcolor-Z0-Resonanzen mit einer Masse unterhalb von 1.3 TeV kann ausgeschlossen werden. Weiterhin konnten beobachtete (erwartete) obere Grenzen auch für eine breite Farboktett-Resonanz berechnet werden. Diese liegen zwischen 2.52 (2.59) pb und 0.37 (0.27) pb für Massen von 0.7 TeV bzw. 2 TeV. Breite Kaluza-Klein-Gluon-Resonanzen mit einer Masse unter 1.65 TeV können ausgeschlossen werden. / This thesis presents the search for new particles that decay into top quark pairs (t¯t). The analysis is performed with the ATLAS experiment at the LHC, using an integrated luminosity of 2.05 fb−1 of proton–proton collision data, collected at a center-of-mass energy of p s = 7 TeV. The lepton plus jets final state is used in the t¯t ! WbWb decay, where one W boson decays leptonically and the other hadronically. The t¯t system is reconstructed using both resolved and boosted topologies of the top-quark decay. For the first time, correlations between the two search channels have been employed by creating a third channel with the events selected by both analyses. The sensitivity to new physics phenomena is thereby improved. Upper limits are derived on the production cross-section times branching ratio for narrow and wide massive states, at the 95 % confidence level. These are extracted by combining the two approaches of the t¯t reconstruction. For a narrow Z0 resonance, the observed (expected) upper limits range from 4.85 (4.81) pb for a mass of 0.6 TeV, to 0.21 (0.13) pb for a mass of 2 TeV. A narrow leptophobic topcolor Z0 resonance with a mass below 1.3 TeV is excluded. Observed (expected) limits are also derived for a broad color-octet resonance. They vary between 2.52 (2.59) pb and 0.37 (0.27) pb for a mass of 0.7 TeV and 2 TeV, respectively. The wide Kaluza-Klein gluon with a mass below 1.65 TeV is excluded. Another aspect of this thesis are performance studies of the level-1 jet trigger. Trigger efficiencies have been measured, using data collected by the ATLAS detector in 2010 at p s = 7 TeV. The turn-on curves obtained for a variety of jet triggers, showed good agreement between data and simulation in the plateau region. The efficiency results were used at the first stage of analyses for multi-jet cross-section measurements.

ATLAS

LHC

Top quark

resonance

LHC

Top quark

resonances

Atlas

530 Physik

29 Physik, Astronomie

UO 5710

ddc:530

Control de l'escintil·lador SPD del calorímetre d'LHCb

Roselló Canal, Maria del Mar

10 December 2009

En aquesta tesi es descriu l'electrònica i la gestió de la placa de control de l'SPD. SPD són les sigles corresponents a Scintillator Pad Detector, part del calorímetre d'LHCb de l'accelerador LHC.L'LHC és un accelerador orientat a estudiar els constituents de la matèria on LHCb n'és un dels detectors. El calorímetre és aquella part del detector destinada a mesurar l'energia de les partícules que el travessen. En el nostre cas l'SPD discrimina entre partícules carregades i no carregades contribuint així en les decisions del calorímetre.En l'electrònica de l'SPD trobareu diferenciades dues parts: l'electrònica en contacte directe amb el subdetector (Very Front End, VFE) i l'electrònica de gestió de l'SPD (la Control Board, CB). L'objectiu d'aquesta tesi és la descripció d'aquesta darrera així com la integració de l'SPD en el sistema de control del calorímetre. El VFE realitza un primer processat de les dades del detector determinant un nivell digital el qual indica si s'ha rebut una partícula carregada o no. La CB és l'encarregada en canvi de la monitorització i el control del sistema SPD: és capaç d'enviar dades de configuració als VFE i a la vegada en monitoritza el correcte funcionament.Veureu que el document es troba organitzat en 5 parts. A la primera part trobareu descrites les característiques principals del calorímetre, les seves funcions i la seva estructura. La part segona, tercera i quarta són dedicades integrament a la CB: a la part 2 tenim descrit el hardware, a la part 3 el sistema de control i a la quarta part hi trobarem comentats els diferents testos i proves realitzades tan sobre el hardware com amb el sistema de control. Finalment a la cinquena part hi trobarem resumits els objectius aconseguits amb el nostre disseny i les aportacions d'aquest en la globalitat de l'experiment. / En esta tesis se describe la electrónica y la gestión de la placa de control del SPD. SPD son las siglas correspondientes a Scintillator Pad Detector, parte del calorímetro de LHCb del acelerador LHC.LHC es un acelerador orientado al estudio de los constituyentes de la materia donde LHCb es uno de los detectores. El calorímetro es aquella parte del detector destinada a medir la energía de las partículas que lo traviesan. En nuestro caso el SPD discrimina entre partículas cargadas y neutras contribuyendo así a las decisiones del calorímetro.En la electrónica del SPD encontraréis diferenciadas dos partes: la electrónica en contacto directo con el detector (Very Front End, VFE) y la electrónica de gestión del SPD (la Control Board, CB). El objetivo de esta tesis es precisamente la descripción de esta última parte así como la integración del SPD en el sistema de control del calorímetro.El VFE realiza un primer procesado de los datos del detector determinando un nivel digital el cual indica si la partícula detectada está cargada o no. La CB es en cambio la encargada de la monitorización y el control del sistema SPD: es capaz de enviar datos de configuración a los VFE y a la vez monitorizar su correcto funcionamiento.Veréis que el documento se encuentra organizado en 5 partes. En la primera parte encontraréis descritas las características principales del calorímetro, sus funciones y su estructura. La segunda parte, la tercera y la cuarta están plenamente dedicadas a la CB: en la parte 2 tenemos descrito el hardware, en la parte 3 el sistema de control y en la cuarta encontraremos los diferentes tests y pruebas realizadas sobre el hardware y el sistema de control. Finalmente en la quinta parte tenemos resumidos los objetivos conseguidos con nuestro diseño y las aportaciones de este en la globalidad del experimento. / In this thesis you will have described the electronics and management of the SPD. SPD stands for Scintillator Pad Detector which is part of the LHCb calorimeter of the LHC accelerator.LHC is an accelerator oriented to study the matter constitution and LHCb is one of the detectors designed for this challenge. The LHCb part oriented to measure the particles energy is the calorimeter. The SPD is designed to discriminate between charged and neutral particles contributing in the calorimeter decisions.In the SPD electronics description we can distinguish between to parts: the electronics in contact with the subdetector (Very Front End, VFE) and the electronics in charge of the SPD management (the Control Board, CB). The goal of this thesis is the description of the last and also the integration of the SPD with the calorimeter control system.The VFE captures the data from the detector and makes a first digital decision depending on if the particle detected is charged or not. The CB is in charge of the monitoring and control of the SPD system: is able to send configuration data to the VFE and also monitors parameters to assure a proper behaviour.You will see that the document is divided in 5 parts. In the first, you will find described the calorimeter, its functionalities and its structure. Part 2, part 3 and part 4 are fully dedicated to the CB: in part 2 we will find the CB hardware, in part 3 the control system and finally in part 4 the different tests performed with the hardware and the control system. The document ends with part 5 where the main objectives of this work are summarized and also the contribution of the SPD design in the LHCb project.

SPD

calorimeter

LHCb

LHC

LHC

LHCb

calorímetro

SPD

physics energy instrumentation

calorímetre

SPD

LHCb

LHC

Les TIC i la seva Gestió

62

Measurement of Electroweak Gauge Boson Scattering in the Channel pp → W ± W ± jj with the ATLAS Detector at the Large Hadron Collider / Messung der Streuung von elektroschwachen Eichbosonen im Kanal pp → W ± W ± jj mit dem ATLAS Detektor am Large Hadron Collider

Gumpert, Christian

17 April 2015

Particle physics deals with the elementary constituents of our universe and their interactions. The electroweak symmetry breaking mechanism in the Standard Model of Particle Physics is of paramount importance and it plays a central role in the physics programmes of current high-energy physics experiments at the Large Hadron Collider. The study of scattering processes of massive electroweak gauge bosons provides an approach complementary to the precise measurement of the properties of the recently discovered Higgs boson. Owing to the unprecedented energies achieved in proton-proton collisions at the Large Hadron Collider and the large amount of data collected, experimental studies of these processes become feasible for the first time. Especially the scattering of two W± bosons of identical electric charge is considered a promising process for an initial study due to its distinct experimental signature. In the course of this work, 20.3 fb−1 of proton-proton collision data recorded by the ATLAS detector at a centre-of-mass energy of √s = 8 TeV are analysed. An analysis of the production of two W± bosons of identical electric charge in association with two jets, pp → W ± W ± jj, is conducted in the leptonic decay channel of the W± bosons. Thereby, emphasis is put on the development of methods for the estimation of experimental backgrounds as well as on the optimisation of the event selection. As a result of this work, first experimental evidence for the existence of the aforementioned process is established with an observed significance of 4.9. Based on the number of observed events in the selected phase space the extracted fiducial cross section is σ(fid) = (2.3 ± 0.5(stat.) +0.4/−0.3 (sys.)) fb which is in agreement with the prediction of the Standard Model of σ(fid,SM) = (1.6 ± 0.2) fb. Of particular theoretical interest are electroweak contributions to the pp → W ± W ± jj process due to their sensitivity to the nature of the electroweak symmetry breaking mechanism. Criteria for a dedicated event selection are investigated and implemented in the analysis with the goal of enhancing the sensitivity to these contributions. First experimental evidence for the presence of electroweak contributions to the pp → W ± W ± jj process can be claimed with an observed significance of 4.1. The cross section extracted in the selected phase space region is found to be σ(fid) = (1.7 +0.5/−0.4 (stat.) ± 0.3(sys.)) fb which is 1.3 standard deviations above the theoretical prediction of the Standard Model of σ(fid,SM) = (1.0 ± 0.1) fb. A variety of extensions to the Standard Model predict modifications to the electroweak gauge sector. In the context of the electroweak chiral Lagrangian, which serves as an effective approximation of these theories in the energy regime E = 1 − 3 TeV, anomalous contributions to the quartic WWWW gauge coupling can be described by the parameters α4 and α5 . The selection of events is optimised again to enhance the sensitivity to these two parameters. On the basis of the number of events observed in this phase space region, the following one-dimensional confidence intervals at the 95% confidence level are derived: −0.09 ≤ α4 ≤ 0.10 and −0.15 ≤ α5 ≤ 0.15. At present, these limits represent the most stringent constraints on contributions from new physics processes to the quartic WWWW gauge coupling.

Teilchenphysik

Eichboson

anomale Kopplungen

Standardmodell

W Boson

LHC

Particle Physics

Standard Model

electroweak

gauge boson scattering

W boson

anomalous couplings

LHC

ddc:530

rvk:UO 6420

Elementarteilchenphysik

Vektorboson

Streuung

Unitarität

LHC

Wirkungsquerschnitt

Measurement of Electroweak Gauge Boson Scattering in the Channel pp → W ± W ± jj with the ATLAS Detector at the Large Hadron Collider

Gumpert, Christian

27 February 2015

Particle physics deals with the elementary constituents of our universe and their interactions. The electroweak symmetry breaking mechanism in the Standard Model of Particle Physics is of paramount importance and it plays a central role in the physics programmes of current high-energy physics experiments at the Large Hadron Collider. The study of scattering processes of massive electroweak gauge bosons provides an approach complementary to the precise measurement of the properties of the recently discovered Higgs boson. Owing to the unprecedented energies achieved in proton-proton collisions at the Large Hadron Collider and the large amount of data collected, experimental studies of these processes become feasible for the first time. Especially the scattering of two W± bosons of identical electric charge is considered a promising process for an initial study due to its distinct experimental signature. In the course of this work, 20.3 fb−1 of proton-proton collision data recorded by the ATLAS detector at a centre-of-mass energy of √s = 8 TeV are analysed. An analysis of the production of two W± bosons of identical electric charge in association with two jets, pp → W ± W ± jj, is conducted in the leptonic decay channel of the W± bosons. Thereby, emphasis is put on the development of methods for the estimation of experimental backgrounds as well as on the optimisation of the event selection. As a result of this work, first experimental evidence for the existence of the aforementioned process is established with an observed significance of 4.9. Based on the number of observed events in the selected phase space the extracted fiducial cross section is σ(fid) = (2.3 ± 0.5(stat.) +0.4/−0.3 (sys.)) fb which is in agreement with the prediction of the Standard Model of σ(fid,SM) = (1.6 ± 0.2) fb. Of particular theoretical interest are electroweak contributions to the pp → W ± W ± jj process due to their sensitivity to the nature of the electroweak symmetry breaking mechanism. Criteria for a dedicated event selection are investigated and implemented in the analysis with the goal of enhancing the sensitivity to these contributions. First experimental evidence for the presence of electroweak contributions to the pp → W ± W ± jj process can be claimed with an observed significance of 4.1. The cross section extracted in the selected phase space region is found to be σ(fid) = (1.7 +0.5/−0.4 (stat.) ± 0.3(sys.)) fb which is 1.3 standard deviations above the theoretical prediction of the Standard Model of σ(fid,SM) = (1.0 ± 0.1) fb. A variety of extensions to the Standard Model predict modifications to the electroweak gauge sector. In the context of the electroweak chiral Lagrangian, which serves as an effective approximation of these theories in the energy regime E = 1 − 3 TeV, anomalous contributions to the quartic WWWW gauge coupling can be described by the parameters α4 and α5 . The selection of events is optimised again to enhance the sensitivity to these two parameters. On the basis of the number of events observed in this phase space region, the following one-dimensional confidence intervals at the 95% confidence level are derived: −0.09 ≤ α4 ≤ 0.10 and −0.15 ≤ α5 ≤ 0.15. At present, these limits represent the most stringent constraints on contributions from new physics processes to the quartic WWWW gauge coupling.

info:eu-repo/classification/ddc/530

ddc:530

Search for Heavy Neutral Higgs Bosons in the tau+tau- Final State in LHC Proton-Proton Collisions at sqrt{s}=13 TeV with the ATLAS Detector

Hauswald, Lorenz

12 May 2017

There are experimental and theoretical indications that the Standard Model of particle physics, although tremendously successful, is not sufficient to describe the universe, even at energies well below the Planck scale. One of the most promising new theories to resolve major open questions, the Minimal Supersymmetric Standard Model, predicts additional neutral and charged Higgs bosons, among other new particles. For the search of the new heavy neutral bosons, the decay into two hadronically decaying tau leptons is especially interesting, as in large parts of the search parameter space it has the second largest branching ratio while allowing for a considerably better background rejection than the leading decay into b-quark pairs. This search, based on proton-proton collisions recorded at sqrt(s) = 13 TeV in 2015 and early 2016 by the ATLAS experiment at the Large Hadron Collider at CERN, is presented in this thesis. No significant deviation from the Standard Model expectation is observed and CLs exclusion limits are determined, both model-independent and in various MSSM benchmark scenarios. The MSSM exclusion limits are significantly stronger compared to previous searches, due to the increased collision energy and improvements of the event selection and background estimation techniques. The upper limit on tan beta at 95% confidence level in the mhmod+ MSSM benchmark scenario ranges from 10 at mA = 300 GeV to 48 at mA = 1.2 TeV.

info:eu-repo/classification/ddc/530

ddc:530

Search for neutral MSSM Higgs bosons in the fully hadronic di-tau decay channel with the ATLAS detector

Wahrmund, Sebastian

23 June 2017

The search for additional heavy neutral Higgs bosons predicted in Minimal Supersymmetric Extensions of the Standard Model is presented, using the direct decay channel into two tau leptons which themselves decay hadronically. The study is based on proton-proton collisions recorded in 2011 at a center-of-mass energy of 7 TeV with the ATLAS detector at the Large Hadron Collider at CERN. With a sample size corresponding to an integrated luminosity of 4.5 fb−1, no significant excess above the expected Standard Model background prediction is observed and CLs exclusion limits at a 95% confidence level are evaluated for values of the CP-odd Higgs boson mass mA between 140 GeV to 800 GeV within the context of the mhmax and mhmod± benchmark scenarios. The results are combined with searches for neutral Higgs bosons performed using proton-proton collisions at a center-of-mass energy of 8 TeV recorded with the ATLAS detector in 2012, with a corresponding integrated luminosity of 19.5 fb−1. The combination allowed an improvement of the exclusion limit at the order of 1 to 3 units in tan β. Within the context of this study, the structure of additional interactions during a single proton-proton collision (the “underlying event”) in di-jet final states is analyzed using collision data at a center-of-mass energy of 7 TeV recorded with the ATLAS detector in 2010, with a corresponding integrated luminosity of 37 pb−1. The contribution of the underlying event is measured up to an energy scale of 800 GeV and compared to the predictions of various models. For several models, significant deviations compared to the measurements are found and the results are provided for the optimization of simulation algorithms.

info:eu-repo/classification/ddc/530

ddc:530

Aspects of QCD uncertainties and fast QCD predictions for high-energy collider experiments

Bothmann, Enrico

03 November 2016

In dieser Arbeit adressieren wir die Schwierigkeit, Präzisionsvorhersagen mit dem kompletten Satz theoretischer Unsicherheiten in der perturbativen Quantenchromodynamik im Rahmen von Monte-Carlo-Simulationen zu treffen, angesichts der zunehmenden Komplexität der dazu nötigen Berechnungen. Die Anforderungen an die Rechenleistung können so groß sein, dass nicht in jeder Anwendung die bestmögliche Präzision erzielt wird. Wir präsentieren eine Reweighting-Methode für den Monte-Carlo-Ereignisgenerator SHERPA. Diese erstellt Variationen der nominellen Vorhersage mit vergleichsweise geringem zusätzlichen Zeitaufwand. Die Methode ist kompatibel mit aktuellen Multijet-Berechnungen nächsthöherer Ordnung, die mit Korrekturen von allen Ordnungen durch einen Partonschauer versehen sind. Zusätzlich diskutieren wir neue Entwicklungen für einen weiteren Reweighting-Ansatz, der auf QCD-Interpolationsgittern beruht. Diese ermöglichen noch schnellere Variationen für Berechnungen fester Ordnung. Solche Gitter können für Monte-Carlo-Simulationen automatisiert erstellt werden mithilfe von Interfaces wie MCgrid. Unsere Verbesserungen für MCgrid ermöglichen die Erstellung vielseitigerer Gitter, die eine größere Klasse von Berechnungen, Gitter-Implementierungen und Skalenvariationen unterstützen. Darüber hinaus diskutieren wir, auf welche Weise solche Gitter für die Unterstützung von Resummationseffekten erweitert werden müssten. Neben dem Reweighting studieren wir noch die Verwendung von Extrapolationsmethoden für die Vorhersage von Jet-Raten hoher Multiplizitäten, welche an zukünftigen Hochenergiebeschleunigern allgegenwärtig sein werden. Diese Methoden basieren auf dem Skalierungsverhalten der Jet-Raten. Eingebettet ist diese Studie in eine allgemeinere Diskussion der zu erwartenden Jet-Aktivität an einem Proton-Proton-Beschleuniger mit einer Schwerpunktsenergie von 100 TeV.

530

Physik (PPN621336750)

QCD

Beschleunigerphysik

Teilchenphysik

LHC

FCC

SHERPA

MCgrid

QCD

collider physics

particle physics

collider phenomenology

LHC

FCC

SHERPA

MCgrid

Recherche d'un neutrino lourd avec le détecteur ATLAS au LHC

Bazid, Houriya

08 1900

Ce mémoire de maîtrise a pour objet une recherche de leptons lourds de quatrième génération avec les données prises par le détecteur ATLAS au LHC dans les collisions pp à $\sqrt{s}$ = 7 TeV et avec une luminosité intégrée de 1.02 fb$^{-1}$. Le processus étudié est la production au singulet de leptons lourds neutres de quatrième génération (N) par la voie du courant chargé suivi de la désintégration du celui-ci en un électron et un boson W : $ pp \to W \to N e \to e W e \to e e \nu_{\ell} \ell $ ($\ell$ = $e$ ou $\mu$), et dépend d'un paramètre de mélange $\xi^{2}$ avec un lepton léger. L'analyse passe par plusieurs étapes, soit l'utilisation de FeynRules pour construire le modèle pour ensuite générer des événements par MadGraph 5.1.2.4. Comme hypothèse de référence, on a choisi une masse de 100 GeV pour le lepton lourd neutre et $\xi_{Ne}^2$ = 0.19, donnant une section efficace de 0.312 pb pour une énergie au centre de masse de 7 TeV. Puisque la génération du signal s'est faite de manière privée à Montréal et non par la collaboration ATLAS, les résultats ne peuvent pas être reconnus officiellement. Sur la base de la simulation, avec des données correspondant à 1 fb$^{-1}$, la limite supérieure attendue à un niveau de confiance de $95\%$ sur la section efficace du signal est de 0.145 pb avec 0.294 pb pour un écart type($\sigma$) et 0.519 pb pour 2$\sigma$. La limite supérieure attendue à un niveau de confiance de $95\%$ sur $\xi_{Ne}^{2}$ de 0.09 pour une masse de 100 GeV. / This M.Sc. thesis describes a search for fourth generation heavy leptons using data from the ATLAS detector at LHC. The total integrated luminosity is 1.02 fb$^{-1}$ in pp collisions at $\sqrt{s}$ = 7 TeV. This analysis study the single production of fourth generation neutral heavy lepton (N) via the charged channel and where W decays leptonically : $ pp \to W \to N e \to e W e \to e e \nu_{\ell} \ell $ ($\ell$ = $e$ ou $\mu$), which depends on the mixing element between the heavy lepton and the light lepton. The model of fourth generation leptons is constructed using FeynRules while the production of events is done by MadGraph 5.1.2.4. As point of reference, we chose a mass of 100 GeV for the fourth generation neutral heavy lepton (N) with $\xi_{Ne}^{2} = 0.19$, which produce a cross section of 0.312 pb. The generation of the signal was done privately in Montreal and not by the ATLAS collaboration. Therefore the results cannot be considered official. With the simulation, the expected superior limit at $95\%$ C.L. on the cross section is 0.145 pb with 0.294 pb for $\sigma$ and 0.519 pb for 2$\sigma$. The expected superior limit at $95\%$ C.L. on $\xi_{Ne}^{2}$ is 0.09.

ATLAS

LHC

physique

particules

leptons lourds

quatrième génération

ATLAS

LHC

physics

particles

heavy leptons

fourth generation