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Conception d'un système de verrouillage sur de fonctionnement pour les collisionneurs linéaires / Design of a dependable Interlock System for linear collidersNouvel, Patrice 18 December 2013 (has links)
Pour les accélérateurs de particules à hautes énergies, le système de verrouillage est une partie clé de la protection de la machine. Le verrouillage de la machine est l’inhibition du faisceau dès lors qu’un équipement critique tombe en panne et/ou qu’un faisceau est de faible qualité. Pour un système de verrouillage, sa sûreté de fonctionnement est la caractéristique la plus importante. Cette thèse présente le développement d’un système de verrouillage pour les collisionneurs linéaires avec une application au projet CLIC (Compact Linear Collider). Son élaboration s’appuie sur la norme d’ingénierie IEEE 1220 et se décline en quatre parties. Tout d’abord, les spécifications sont établies. Une attention particulière est portée sur la sûreté de fonctionnement, plus précisément, la fiabilité et la disponibilité du système. La deuxième étape est la proposition d’un design. Celui-ci est basé sur une analyse fonctionnelle, les interfaces du système et l’architecture du CLIC. Troisièmement, une étude de faisabilité est effectuée en appliquant les concepts dans un environnement opérationnel. Finalement, la dernière étape est la vérification matérielle. Le but est de prouver que le design proposé est capable de remplir le cahier des charges établi. / For high energy accelerators, the interlock system is a key part of the machine protection. The interlock principle is to inhibit the beam either on failure of critical equipment and/or on low beam quality evaluation. The dependability of such a system is the most critical parameter. This thesis presents the design of an dependable interlock system for linear collider with an application to the CLIC (Compact Linear Collider) project. This design process is based on the IEEE 1220 standard and is is divided in four steps. First,the specifications are established, with a focus on the dependability, more precisely the reliability and the availability of the system. The second step is the design proposal based on a functional analysis, the CLIC and interfaced systems architecture. Third, the feasibility study is performed, applying the concepts in an accelerator facility. Finally, the last step is the hardware verification. Its aim is to prove that the proposed design is able to reach the requirements.
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Closure tested parton distributions for the LHCDeans, Christopher Scott January 2016 (has links)
Parton distribution functions (PDFs) provide a description of the quark and gluon content of the proton. They are important input into theoretical calculations of hadronic observables, and are obtained by fitting to a wide range of experimental data. The NNPDF approach to fitting PDFs provides a robust and reliable determination of their central values and uncertainties. The PDFs are modelled using neural networks, while the uncertainties are generated through the use of Monte Carlo replica datasets. In this thesis I provide an in depth description of development of the latest NNPDF determination: NNPDF3.0. A number of novel adaptations to the genetic algorithm and network structure are outlined and the results of tests as to their effectiveness are shown. Centrally, the use of closure tests, where artificial data is generated according to a known theory and used to perform a fit, has been instrumental in both the development and validation of the NNPDF3.0 approach. The results of these tests, which demonstrate the ability of our methodology to reproduce a known underlying law, are investigated in detail. Finally, results from the NNPDF3.0 PDF sets are presented. The parton distributions obtained are compared with results from other PDF collaborations, and PDFs fit to limited datasets are also discussed. Physical observables relevant for future collider runs are presented and compared to other determinations.
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Medidas da produção de J/, \' e polarização de J em colisões p+p a s = 200 GeV com o detector PHENIX / Measurement of J/´psi´e ´psi´ production and J/´psi polarization im p+p collisions at ´(s pot.1/2)´ with the phenix detectorMarisílvia Donadelli 08 May 2009 (has links)
A produção de J/, e 0 em colisões p+p a uma energia no referencial do centro de massa (ps) de 200 GeV foi estudada no Experimento PHENIX no RHIC. A amostra de dados coletada durante o período de aquisição de 2006 permitiu não somente a determinação das seções de choque absolutas, mas também o estudo da polarização de J/, através de seu decaimento no canal de dieltrons em região de rapidez central. As medidas incluem a dependência com o momento transverso e são comparadas com aquelas de outros experimentos em diferentes intervalos de rapidez e energias de colisão, e com previsões teóricas. A medida da polarização de J/, deve trazer limitações aos mecanismos de formação de charmonium e a medida de feed-down de J/, s provenientes de ´ é de importância para o entendimento da produção prompt de J/, assim como para a supressão observada em colisões A+A no RHIC. / The production of J/´psi´e ´psi´collisions at the nucleon center of mass energy ´(s pot.1/2)´ have been studied in the PHENIX Experiment at RHIC. The sample collected during the 2006 data taking period allowed not only the determination of absolute cross sections but also the study of J= polarization through its decays into the dielectron channel at mid rapidity. The measurements include transverse momentum dependence and are compared to that of other experiments in different rapidity ranges and collision energies and to theoretical model predictions. The J= polarization results should provide a constraint on charmonium formation mechanisms and the measurement of the feed down of 0 to J= is of importance for understanding prompt J= production as well as the suppression observed in A+A collisions at RHIC.
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Searching for Vector-Like Quarks Using 36.1 fb^{-1} Of Proton-Proton Collisions Decaying to Same-Charge Dileptons and Trileptons + b-jets at √s = 13 TeV with The ATLAS DetectorJones, Sarah, Jones, Sarah January 2017 (has links)
Since the discovery of the Higgs boson in 2012, the search for new physics beyond
the Standard Model has been greatly intensified. At the CERN Large Hadron Collider
(LHC), ATLAS searches for new physics entail looking for new particles by colliding
protons together. Presented here is a search for a new form of quark matter called
Vector-like Quarks (VLQ), which are hypothetical particles that are expected to have
mass around a few TeV. VLQ can come in a variety of forms and can couple to
their Standard Model (SM) quark counterparts, particularly to the third generation.
They are necessary in several beyond the SM theories in order to solve the hierarchy
problem. This search uses 36.1 fb−1of proton-proton collision data collected with the
ATLAS detector at the LHC from August 2015 to October 2016. Only events with two
leptons of the same charge, or three leptons, plus b-jets and high missing transverse
energy are considered in the main analysis. This signature is rarely produced in the
SM, which means the backgrounds in this analysis are relatively low. This analysis
is sensitive to specific predicted decay modes from pair production of an up-type
VLQ with a charge of +2/3, T, an up-type VLQ with a charge of +5/3, T5/3, and
a down-type quark with a charge of −1/3, B, as well as single production of T5/3.
There is another theorized VLQ that this analysis is not sensitive to: B−4/3, due
to its primary decay mode, which is unable to produce the final-state signature of
interest. The results from this analysis suggest only a slight deviation of data from
SM backgrounds reaching as high as 1.89σ, which does not indicate evidence for
VLQ. A mostly frequentist statistical technique, called the CLS Method, is used to
interpret the data and set limits on the T, B, and T5/3 signal models. Using this
method, exclusion limits are set at the 95% confidence level, effectively excluding T
mass below 0.98 TeV, T5/3 mass below 1.2 TeV, and B mass below 1.0 TeV, assuming
singlet branching ratios. Also, branching ratio independent limits are set on the T
and B VLQ.
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A study of central exclusive production at LHCbStevenson, Scott Robert January 2015 (has links)
This thesis presents an analysis of the central exclusive production (CEP) of χ<sub>c</sub> mesons in proton-proton collisions at a centre-of-mass energy of 8 TeV, using data collected with the LHCb detector corresponding to an effective integrated luminosity of 126.3 ± 4.3 pb⁻¹. Candidate χ<sub>c</sub> decays are reconstructed in the K⁺K⁻ and π⁺π⁻ final states, where the final state particles have pseudorapidities between 2.5 and 4.5. The products of the cross sections and branching fractions are measured as σ x B(χ<sub>c0</sub> → K⁺K⁻) = 28.0 ± 2.8 ± 13.9 pb, σ x B(χ<sub>c0</sub> → π⁺π⁻) = 20.3 ± 2.4 ± 8.1 pb, σ x B(χ<sub>c2</sub> → K⁺K⁻) < 12.1 pb, σ x B(χ<sub>c2</sub> → π⁺π⁻) < 10.5 pb, where the first uncertainties are statistical and the second systematic, and limits are set at the 95% confidence level. A major source of systematic uncertainty is the determination of the fraction of the selected data which is CEP rather than inelastic backgrounds. Also described is HERSCHEL, a new subdetector installed at LHCb during the first long shutdown of the LHC. This is a system of forward shower counters which will provide CEP analyses with event-by-event rejection of inelastic backgrounds. The pseudorapidity coverage and detection efficiency of HERSCHEL are determined using Monte Carlo simulations. The pseudorapidity coverage extends to |η&| ≥ 10 due to the showering of collision products at the aperture limit. With a photoelectron threshold yield of 0.2 times the yield in the mean minimum bias event, the detection efficiency for single diffractive events is predicted to be 89% in the forward direction and 91% in the backward direction.
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Search for dark matter in association with a leptonically decaying Z boson in the ATLAS detector at the Large Hadron ColliderElliot, Alison A. 29 August 2017 (has links)
This dissertation describes a search for the invisible decays of dark matter particles produced in association with a Z boson, where the latter decays to a charged lepton pair. The dataset for this search includes 13.3 1/fb of collisions recorded in 2015 and 2016 at a centre-of-mass energy of 13 TeV in the ATLAS detector at the Large Hadron Collider in Geneva, Switzerland. The invisible particles manifest themselves as missing transverse momentum, or MET, in the detector, while the charged leptons of interest are electron (e+e-) or muon (mu+mu-) pairs. The models simulated for this study are vector mediated simplified models with Dirac fermionic dark matter particles with couplings g_q = 0.25, g_X = 1 and g_l = 0 . The main background to this analysis, ZZ->llvv, is irreducible, as it shares the same signature as the signal. It is estimated with Monte Carlo simulations including contributions from both qq->ZZ and gg->ZZ production modes. Where possible, other backgrounds are estimated using data-driven techniques and reduced through various selection criteria. The final search is performed by looking for a deviation from the Standard Model background expectation in the MET distribution using two signal regions, e+e- and mu+mu-. This is done using statistical tools to make a likelihood fit and set a 95% confidence level limit as no deviations are found. Limits are placed on the presented model of dark matter for mediator masses up to 400 GeV and for a range of dark matter masses from 1 to ~200 GeV. / Graduate
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Mesure de la section efficace de production de paires de quarks top dans le canal comportant un muon, un tau, des jets dont au moins un jet de b, et de l'énergie manquante auprès de l'expérience Dzero du Tevatron / Measurement of the ttbar cross section in the muon+jets+tau+b-jet(s)+missing-E_{T} final state for the DØ Experiment at the TevatronJammes, Jérôme 09 September 2011 (has links)
Le but premier de la physique des hautes énergies est d'améliorer notre connaissance de la structure fondamentale de la matière, et notamment des particules qui constituent le monde. L'une d'entre elles est le quark top, qui fut découvert en 1995 par les collaborations CDF et D0 auprès du collisionneur protons-antiprotons Tevatron. Un des buts principaux du Tevatron a été depuis l'étude fine des propriétés du quark top, et en particulier de la section efficace de production de paires top-antitop. Différentes analyses ont été menées dans les canaux leptons, dileptons, et tout hadronique afin de déterminer le plus précisément possible les valeurs de ces paramètres, et ainsi de tester la validité du Modèle Standard. Le but principal de cette thèse est de vérifier une des prédictions théoriques du Modèle Standard de la physique des particules, à savoir la section efficace de production top-antitop, auprès du collisionneur Tevatron. Le canal étudié est constitué d'un muon, d'un lepton tau, de leurs neutrinos associés, de de deux jets de quark b (l'un d'entre eux provenant d'un quark b, l'autre d'un anti-quark b). La reconstruction et l'identification des jets , des muons, des leptons taus (en particulier par l'utilisation d'un réseau de neurones dédié), et l'étiquetage des jets de b, représentent les éléments fondamentaux de cette étude. Au final, un bon accord entre les données et la simulation Monte Carlo est obtenu à la dernière étape de cette analyse. En outre, la mesure finale de la prédiction théorique au niveau NLL + NLO du calcul des pertubations sont compatibles. / The purpose of high energy physics is to improve our knowledge about the fundamental structure of matter, in particular about particles that constitute the world. One of these is the top quark, that was discovered in 1995 by the CFD and D0 collaborations at the Tevatron protons-antiprotons collider. One of the primary aim of the Tevatron has been then the fine study of the top quark propertiers, in particular the top-antitop production cross section. SDifferent analysis have been performed in the leptons, dileptons, and all-hadronic channels to determine accurately the values of these parmatersn and thus to test the validity of the Standard Model.The main goal of this thesis is to verify one of the theoretical predictions of the Standard Model of particle physics, the top-antitop production cross section, at the Tevatron collider. The channel studied is constituted by one muon, one tau lepton, their associated neutrinos, and two b-jets (one coming from the quark, the other one coming from a b anti-quark). The reconstruction and identification of jets, of muons, of taus (in particular with the use of a taus neural network), and the b-tagging of jets, represent the fundamental elements of this study. Endly, a good agreement between data and Monte Carlo simulation is obtained at the final stage of analysis. Moreover, the final measurement and the theoretical prediction at the NLL+NLO perturbations level are found to be compatible.
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A Search for Heavy Resonances Decaying to HH → bb̄bb̄ with the ATLAS DetectorEmerman, Alexander Zack January 2021 (has links)
A search for Higgs boson pairs produced in the decay of high mass exotic resonances is presented. The search uses the bb̄bb̄ final state, analyzing 139 fb⁻¹ of proton–proton collision data at √s = 13 TeV collected with the ATLAS detector. Spin-0 and spin-2 benchmark signal models are considered and no significant deviation from the Standard Model prediction is observed. The search is combined with a complementary analysis for lower mass resonances to set upper limits on the production cross-section times HH branching ratio of new resonances in the mass range of 251 GeV to 5 TeV.
In addition, the methodology for the in-situ calibration of a novel double-b-tagging algorithm (Xbb2020) using gluon to bb̄ decays is presented. Preliminary scale factors for Monte-Carlo simulation are computed using 139 fb⁻¹ of √s = 13 TeV pp collision data collected with the ATLAS detector. The completed calibration will allow the Xbb2020 algorithm to be used in future ATLAS searches for H → bb̄ decays.
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THE FIRST HARMONIC ANISOTROPY OF CHARMED MESONS IN 200 GEV AU+AU COLLISIONSAtetalla , Fareha G A 21 July 2021 (has links)
No description available.
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Optics optimization of longer L* Beam Delivery System designs for CLIC and tuning of the ATF2 final focus system at ultra-low β* using octupoles / Optimisation de la ligne de faisceau du système de focalisation finale à long L* du collisionneur linéaire CLIC et étude des optiques de focalisation de l'ATF2 à ultra-bas β* avec utilisation d'octupôlesPlassard, Fabien 06 July 2018 (has links)
Un défi important pour les futurs collisionneurs linéaires électron-positron est de pouvoir focaliser le faisceau à des tailles transverses de l’ordre du nanomètre au point d’interaction (IP), permettant d’atteindre la luminosité de conception. Le système délivrant les faisceaux d’e- et de e + de la sortie du Linac principal vers le point d’interaction, le Beam Delivery System (BDS), réalise les fonctions critiques requises pour atteindre l’objectif de luminosité, tel que la collimation et la focalisation du faisceau. Le faisceau est focalisé par le système de focalisation finale (FFS) tout en corrigeant les aberrations d’ordre supérieur propagées le long du système. Les effets chromatiques contribuant à l’élargissement de la taille du faisceau, sont amplifiés par la force de focalisation des deux derniers quadripôles QF1 et QD0, ou doublet final (FD), et par la longueur de la distance focale finale L* entre QD0 et l’IP. L’approche de correction de la chromaticité retenue pour les deux grands projets actuels de collisionneurs linéaires, CLIC et ILC, est fondée sur la correction locale de la chromaticité générée par le doublet final. Ce schéma est actuellement testé à l’ATF2 au KEK (Japon). Ce travail de thèse se concentre sur les problématiques liées au système de focalisation finale du projet CLIC re-optimisé avec un plus long L*, dans le cadre de la simplification de l’interface machine-détecteur (MDI), ainsi que sur le travail expérimental conduit à l’ATF2 pour l’optimisation et l’étude des optiques du système de focalisation finale à ultra-bas β* incluant les tout premiers est in situ des octupôles à l’ATF2. / The future machines considered to carry out high precision physics in the TeV energy regime are electron-positron (e+e−) linear colliders. Future linear colliders feature nanometer beam spot sizes at the Interaction Point. The Beam Delivery System (BDS) transports the e + and e− beams from the exit of the linacs to the IP by performing the critical functions required to meet the CLIC luminosity goal such as beam collimation and focusing. The beam is focused through the Final Focus System while correcting higher order transport aberrations in order to deliver the design IP beam sizes. The chromatic contributions are amplified by the focusing strength of the two last quadrupoles named QD0 and QF1, reffered to as the Final Doublet (FD), and by the length of the final focal distance L* between QD0 and the IP. The chromaticity correction approach chosen for the CLIC FFS is based on the Local chromaticity correction scheme which uses interleaved pairs of sextupole magnets in the FD region in order to locally and simultaneously correct horizontal and vertical chromaticity. The current linear collider projects, the Compact Linear Collider (CLIC) and the International Linear Collider (ILC) have FFS lattices based on the Local Chromaticity correction scheme. This scheme is being tested in the Accelerator Test Facility 2 (ATF2) at KEK (Japan). This thesis concentrates on problems related to the optimization of BDS lattices for the simplification of the CLIC Machine Detector Interface (MDI) and on the experimental work for the implementation and study of a CLIClike FFS optics for the ATF2, referred to as ultra-low β* optics.
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