Global ETD Search

31	Observation des photons directs dans les premières données et préparation à la recherche du boson de Higgs dans l'expérience CMS au LHC (CERN) Chanon, Nicolas 06 October 2010 (has links) (PDF) Le LHC (Large Hadron Collider) fournit aux expériences du CERN (Laboratoire Européen pour la Physique des Particules) des collisions proton-proton avec une énergie de 7 TeV dans le centre de masse depuis fin Mars 2010. Le LHC a en particulier été conçu pour permettre la recherche du boson de Higgs, particule prédite par le modèle standard encore jamais observée à ce jour, dans toute la gamme de masse où il est attendu. Ce travail de thèse est une contribution à la recherche du boson de Higgs dans CMS (Compact Muon Solenoid), l'un des quatre grands détecteurs placés auprès du LHC, et développe plusieurs outils qui permettent la mesure des bruits de fonds et l'amélioration du potentiel de découverte. Un nouvel outil de récupération des photons émis par les leptons dans l'état final de la désintégration H --> ZZ(*) ->4$\ll (\ll= e\ mu)$ a été développé dans cette thèse. Cette méthode permet la récupération d'un nombre variable de photons par événements, donne une meilleure performance que la méthode précédemment utilisée dans CMS et permet l'amélioration de la résolution sur la masse des bosons Z0 et du boson de Higgs, ainsi qu'un gain de 5% sur la significance d'une observation du boson de Higgs dans ce canal. La deuxième partie de cette thèse traite de l'étude des bruits de fond et de la recherche d'un boson de Higgs léger (110 < mH < 140 GeV) dans le canal H --> $\gamma\gamma$. Un nouvel outil de discrimination $\gamma/\pi^i0$ à l'aide d'un réseau de neurone a été mis au point pour le rejet des photons provenant de la désintégration des $\pi^0$ produits copieusement dans les jets de QCD. Les performances du réseau de neurone sont examinées dans le détail. Le réseau de neurone est alors utilisé comme variable "template" permettant la mesure du processus $\gamma$+X à partir des données avec 10 nb−1 de luminosité intégrée dans CMS. La mesure du processus $\gamma\gamma+X$ est aussi préparée à partir de la simulation dans l'hypothèse d'une luminosité intégrée de 10 pb−1. La prise en compte des effets cinématiques aux ordres supérieurs, nécessaire pour la prédiction la plus précise possible du signal H -> $\gamma\gamma$ et du bruit de fond, est effectuée dans cette thèse par la méthode de repondération, pour le gg -> H $\gamma\gamma$ processus au NNLO et pour la première fois pour le processus $\gamma\gamma$ +X au NLO, dans les deux cas à l'aide de distributions doublement différentielles. Les outils de repondération et de discrimination $\gamma/\pi^0$ sont ensuite intégrés dans l'analyse pour améliorer la sensibilité de CMS à la recherche du boson de Higgs dans le canal H->$\gamma\gamma$ dans le modèle standard et au-delà, grâce à une paramétrisation effective développée par des phénoménologues avec lesquels nous avons travaillé. [PHYS] Physics Physique des hautes énergies collisions proton-proton expérience CMS au LHC calorimètre électromagnétique (ECAL) photons processus de photon inclusif et diphoton recherche du boson de Higgs effets de QCD aux ordres supérieurs repondération modèles BSM
32	On the Development of Mucin-based Biomaterial Coatings Sandberg, Tomas January 2008 (has links) Owing to their key role in mucosal functioning as surface barriers with biospecific interaction potentials, the mucins are interesting candidates for use as surface modifiers in biomaterials applications. In this work, “mild” fractionation procedures were used to prepare mucins of bovine (BSM), porcine (PGM), and human (MG1) origin. Biophysicochemical analysis showed the prepared mucins to differ in size, charge, conformation, and composition. In turn, these factors were shown to govern mucin adsorption on hydrophilic and hydrophobic model surfaces. To enable for detailed coating analysis, methods for the qualitative and quantitative analysis of mucin-based coatings were developed. Of particular interest, a method for the determination of the fraction of surface-exposed, presumed bioactive proteins in a complex mucin coating was described. It was shown, using microscopy and activation assays, that mucin precoating effectively suppresses the neutrophil response towards a polymeric model biomaterial. Under optimal coating conditions, all mucins performed equally well, thus indicating them to be functionally similar. Coating analysis suggested that efficient mucin surface-shielding is critical for good mucin coating performance. Following a study on the complexation of albumin with preadsorbed mucin, we investigated the effect of mucin precoating on the conformation and neutrophil-activating properties of adsorbed host proteins. We found that mucin precoating greatly reduces the strong immune-response normally caused by adsorbed proinflammatory proteins (IgG and sIgA). Detailed coating analysis revealed that the fraction of surface-exposed protein in the mucin-protein composite influences the neutrophil response. Unexpectedly low neutrophil activation for composites containing near-monolayer concentrations of exposed IgG, suggested IgG to act synergistically with mucin on the surface. Conformational analysis supported this by showing that a preadsorbed mucin layer could stabilize adsorbed IgG through complexation. Our findings link well to the complex in vivo situation and suggest that functional mucosal mimics can be created in situ for improved biomaterials performance. Mucin Biomaterial Surface-exposed protein XPS Neutrophil Cell morphology SEM QCM-D Viscoelasticity Protein-stabilization HNL Coating MG1 BSM PGM SEC-MALS-RI Mucin quantification Protein adsorption Ellipsometry Biomaterials Biomaterial
33	Alternative Mechanisms for Size Control in Synthesis of Nanoparticles - Population Balance Modelling and Experimental Studies Perala, Siva Rama Krishna January 2013 (has links) (PDF) The extensive growth of nanotechnology has necessitated the development of economical and robust methods for large scale production of nanomaterials. It requires detailed quantitative understanding of lab-scale processes to enable effective scale-up and development of new contacting strategies for their controlled synthesis. In this thesis, attempts are made in both the directions using experimental and modelling approaches for synthesis of different nanoparticles. The two-phase Brust--Schiffrin protocol for the synthesis of gold nanoparticles was investigated first. The mechanism of transfer of reactants from aqueous to organic phase using phase transfer catalyst (PTC) was investigated using the measurement of interfacial tension, viscosity, SLS, SAXS, 1H NMR, DOSY-NMR, and Karl-Fischer titration. The study shows that the reactants are transferred to organic phase through the formation of hydrated complexes between reactants and PTC rather than through the solubilization of reactants in water core of inverse micelles of PTC, proposed recently in the literature. The particle synthesis reactions thus occur in the bulk organic phase. The extensive body of seemingly disparate experimental findings on Brust--Schiffrin protocol were put together next. The emerging picture ruled out both thermodynamic considerations and kinetics based arguments as exemplified by the classical LaMer's mechanism with sequential nucleation growth capping for size control in Brust--Schiffrin protocol. A new model for particle synthesis was developed. The model brought out continued nucleation--growth--capping based size control, an hitherto unknown mechanistic route for the synthesis of monodisperse particles, as the main mechanism. The model not only captured the reported features of the synthesis but also helped to improve the uniformity of the synthesized particles, validated experimentally. The two-step mechanism of Finke--Watzky---first order nucleation from precursor and autocatalytic growth of particles---proposed as an alternative to LaMer model to explain an induction period followed by a sigmoidal decrease in precursor concentration for the synthesis of iridium nanoparticles was investigated next. The mechanism is tested using an equivalent population balance model for its ability to explain the experimentally observed near constant breadth of the evolving size distribution as well. The predictions show that while it captures precursor conversion well, it fails to explain particle synthesis on account of its inability to suppress nucleation. A minimal four-step mechanism with additional steps for nucleation from reduced iridium atoms and their scavenging using particle surface is proposed. The new mechanism when combined with the first or second order nucleation, or classical nucleation with no scavenging of reduced atoms also fails to suppress nucleation. A burst like onset of nuclei formation with homogeneous nucleation and the scavenging of reduced atoms by particles are simultaneously required to explain all the reported features of the synthesis of iridium nanoparticles. A new reactor is proposed for continuous production of CaCO3 nanoparticles in gas-liquid reaction route. The key feature of the new reactor is the control of flow pattern to ensure efficient mixing of reactants. A liquidliquid reaction route for production of CaCO3 nanoparticles is also optimized to produce nanoparticles at high loading. Optimum supersaturation combined with efficient breakup of initial gel-like structure by mechanical agitation and charge control played a crucial role in producing nano sized CaCO3 particles. Nanoparticles - Synthesis Metal Nanoparticles Iridium Nanoparticles Calcium Carbonate Nanoparticles Gold Nanoparticles Brust-Schiffrin Method (BSM) Finke-Watzky Model Phase Transfer Catalysis Brust–Schiffrin Synthesis CaCO3 Nanoparticles Particle/Droplet Size Analysis (PDIA) Nanotechnology
34	The Higgs Boson as a Probe of Physics Beyond the Standard Model at the Large Hadron Collider Mohan, Kirtimaan A January 2014 (has links) (PDF) The nature of interactions of fundamental particles is governed by symmetries. These interactions are well described by an elegant and simple SU(3)c x SU(2)L x U(1)Y symmetric gauge theory that we call the Standard Model (SM) of particle physics. Very recently the CMS and ATLAS experiments at the Large Hadron Collider (LHC) conﬁrmed the discovery of a boson of mass of about 125 GeV. Already, the data collected from these experiments seem to indicate that this particle is in fact the last missing piece and essential ingredient of the Standard Model : the Higgs boson. The Higgs has the very distinct role of providing a mechanism through which masses for other particles can be generated without destroying gauge invariance and hence the renormalizability of the theory. While this discovery completes the picture we have of the SM, the SM itself does not account for several experimentally observed phenomena , notably, dark matter (DM) and the baryon asymmetry in the universe (BAU). From a theoretical perspective a possibility for gauge coupling uniﬁcation, an explanation for the quark ﬂavour structure and the stability of the Higgs mass to radiative corrections are features that are absent in the framework of SM. This provides a strong basis to the hypothesis that there must be some intermediate scale (between the Planck scale and electroweak scale) of new physics, i.e. physics beyond the SM (BSM). The renormalizability of SM guarantees that various parameters of SM can be determined from the electroweak scale all the way up to the Planck scale. It is interesting to note that the RG evolution of the Higgs quartic coupling is driven to smaller values and can also become negative as the energy scale increases. Naively, a negative quartic coupling indicates destabilization of the EWSB vacuum. The energy scale at which the quartic coupling becomes negative would signify a break down of the theory and would set a scale for new physics. In principle the potential can be made stable through Planck scale dynamics and other vacua (other than the EWSB vacuum) may crop up. In this scenario the EWSB vacuum may decay to the deeper vacua. It is safe to say that, within experimental uncertainties of the Higgs and top quark masses the EWSB vacuum appears to be metastable. We are now left clueless: neither do we have any hints as to the nature of BSM physics nor the scale at which SM breaks down and new physics is assured. One should also note that although the evidence for BSM is compelling, data analysed from 7 and 8 TeV runs of the LHC have not produced any signals of BSM physics so far. Thus any indications of TeV scale BSM physics have been eluding us. In such a scenario the Higgs boson has assumed the role of a portal to study the possibilities of new physics. This is also motivated by the key role that the Higgs plays in generation of mass in a gauge symmetric theory. It is therefore reasonable to assume that the Higgs boson does in fact couple to particles predicted in BSM physics. Such couplings would play a role in modifying the properties of this boson. It is now essential to determine the properties of the Higgs as precisely as possible to search for signs of BSM. This thesis explores the idea of using the Higgs as a portal to study BSM physics. The properties of the Higgs that have already been measured with data from the ﬁrst two runs of the LHC are its mass, branching ratios, spin and CP. When placed in the framework of a particular new physics model, these properties impose restrictions on the couplings and masses of BSM particles. A strong candidate for a BSM scenario is a Supersymmetric extension of the SM. Supersymmetry is an extension of the Poincar´e group that describes space time symmetries. Fermionic and bosonic degrees of freedom are mixed through the generators of this extended symmetry. In the minimal supersymmetric extension of the SM (MSSM), each particle of SM has a corresponding superpartner with identical quantum numbers modulo its spin. Since we do not see, for example, a bosonic superpartner of the fermionic top quark of the same mass as that of the top quark, this must mean that the supersymmetry, even if it is realized in nature, is not exact and must be broken. Although the symmetry may be broken the MSSM has some very appealing features: stabilization of the Higgs mass to quantum corrections, gauge coupling uniﬁcation and possible dark matter candidate if the lightest Supersymmetric particle happens to be both stable and neutral. It is interesting to note that in MSSM, the tree level Higgs mass is bounded from above by the Z boson mass ( ~90 GeV ). The measured value of the Higgs mass (~126 GeV ) is still achievable in the MSSM through quantum corrections, the largest contribution coming from the top quarks and stop squarks. One therefore sees that the mass of the Higgs can already provide information about top superpartners. The presence of additional charged and coloured scalars implies the possibility of existence of charge and colour breaking (CCB) minima which would aﬀect the stability of the Electroweak Symmetry breaking (EWSB) minima generated by the Higgs potential. Stability of EWSB is then dependent on parameters in the scalar sector of MSSM. We explore the nexus between the Higgs mass and vacuum stability in this model and ﬁnd restrictions on the MSSM parameter space. The lighter Higgs of the MSSM couples differently to SM particles than the SM Higgs boson. More speciﬁcally one expects the couplings of the MSSM Higgs to gauge bosons to be smaller than in SM and unlike the SM Higgs, up type quarks have couplings strengths that are diﬀerent from that of down type quarks. In the decoupling regime these diﬀerences become negligible and the lighter MSSM Higgs behaves identically to the SM Higgs. The measured Higgs rates do not show any large deviations from the expectations of a SM Higgs. It is therefore reasonable to assume that MSSM, if realized, resides in the decoupling regime. While tree level processes are not altered signiﬁcantly in this regime, the same cannot be said about loop induced processes such as (h→ γγ) or (gg → h). Such processes may be aﬀected signiﬁcantly by sparticles running in the loops. Higgs decays to two photons can be strongly affected by the stau sector of MSSM and we study this in connection with EWSB vacuum stability. In several models of dark matter, the dark matter candidate particle couples to the Higgs boson. It may well be that this candidate particle may be light enough so that the decay of the Higgs boson to these particles may be possible. For example, in the framework of the MSSM, the LSP (˜χ01) is the dark matter candidate and a decay of the form hχ˜→01χ˜01is possible depending on the mass and strength of coupling of such a particle. At the LHC this would show up as an branching ratio to particles that are invisible to the detectors. The dominant production mode of the Higgs at LHC proceeds through gluon fusion. In this channel a signal for an “invisibly” decaying Higgs would show up as missing energy plus jets at LHC. This has already been studied in quite some detail. We focus on other production modes, namely Vector Boson Fusion (VBF) and associated production (VH), in determining an invisible branching fraction at LHC. These two production channels are much less sensitive to any other BSM signals that may mimic an invisibly decaying Higgs and thus provide clean signals for the latter. A determination of the nature of interactions between the Higgs and gauge bosons is of paramount importance. An understanding of these interactions is closely tied to an understanding of the nature of EWSB. There are two aspects to probing these interactions. One is a determination of the Lorentz structure of the Higgs and gauge boson vertices and the second is to determine the strength of its couplings. The Higgs coupling to two gauge bosons (the hVV vertex) in SM is of the form ~ agµν . Under the assumption that BSM physics does not alter this Lorentz structure, information about possible new physics can be simply extracted through a determination of the strength of the coupling aV . However, the most general structure of this vertex is of the form (aV gµν + bV pµq ν + cV ɛ µνρσpρqσ) . Here p and q are the sum and diﬀerence of the two gauge boson momenta respectively and ɛµνρσ the completely antisymmetric Levi-Civita tensor. The term cV parametrizes CP-odd couplings while the rest are CP-even. The terms proportional to b V and cV may be generated by new physics. But which new physics model do we look at? There are a plethora of such models. Rather than shooting in the dark at random BSM directions one could adopt the following approach. In the absence of BSM signals at the LHC so far, one could assume that the scale of physics is relatively high and BSM particles are more massive than SM particles and can therefore be integrated out of the Lagrangian. It is also prudent to assume that new physics respects the SU(3)c x SU(2)L x U(1)Y gauge symmetry of SM. With these two assumptions in hand, one could supplement the SM Lagrangian with additional operators. These operators which generally have mass dimensions greater than four would destroy the renormalizability of the theory, though an interpretation as an effective theory up to a scale Λ is still valid. The idea is to now study the consequences that this effective theory would have on measurable properties of the Higgs. The effective theory could affect both the Lorentz structure as well as the strength of the couplings of the Higgs to the gauge bosons. This thesis deals with the determination of the Lorentz structure of the Higgs coupling to two gauge bosons , i.e the trilinear vertex. An analysis of this for the hZZ vertex has already been performed by ATLAS and CMS using h → ZZ *decays. A pure pseudoscalar Higgs (cZ ≠0, aZ = bZ = 0) coupling has been ruled out at about 2 ~ 3 σ level. Bounds have also been placed on a mixed scalar-pseudoscalar coupling (a Z =0,cZ =0,bZ = 0). This however, is not the end of the story. There are two important points to note here. Firstly it is important to be able to verify these ﬁndings in other production modes. To this end, we investigate the ability of VBF production to probe such anomalous couplings and ﬁnd strong eﬀects on the pseudo-rapidity distributions of the tagging jets in VBF. Secondly it is important to also look for such anomalous couplings in the hWW vertex. At this point, one might argue that the hZZ vertex and hWW vertex are connected by Custodial symmetry. However this symmetry is violated in SM by gauging of the hypercharge. It follows that violations of this symmetry should arise naturally in BSM physics. A study of the anomalous vertex is not easily achieved in h→ WW ∗ decays due to backgrounds and diﬃculties in reconstructing momenta. The VBF channel can be quite effective here although there is signiﬁcant contamination from VBF production through the Z boson. We ﬁnd that a cleaner production mode to use would be associated production. Until recently the low cross-section of Vh made it diﬃcult to analyse this channel at LHC. An analysis of Vh has been made possible by the use of modern jet substructure techniques using (h→ bb) decays. We use these techniques and study how one can probe anomalous couplings in the Vh production mode at LHC. One of the most important couplings of the Higgs is that to the top, the heaviest SM particle. Not only is this coupling responsible for the main production channel of the SM Higgs at the LHC but the interaction with the top also has important consequences on spontaneous symmetry breaking within the SM – notably, vacuum stability arguments – as well as beyond the SM – supersymmetry, for instance, where the top drives electroweak symmetry breaking in some scenarios. The strength as well as the CP property of the Higgs top coupling is therefore an important aspect of to study. more speciﬁcally we investigate terms of the form ψ¯t(at + ibtγ5)ψth. here ψt and h corresponds to the top quark and Higgs ﬁelds respectively. at and bt parametrize scalar and pseudoscalar couplings respectively. Since the dominant production mode of the Higgs at the LHC (gluon fusion) proceeds through a top quark loop as do decays of the Higgs to two photons, some information about these couplings may be extracted just by looking at Higgs production and decay rates. However, an unambiguous determination of these couplings is possible only through Higgs production with a top and anti-top pair. Although the production rates are very small at the LHC, such a study is of prime importance. We investigate t¯th production at the LHC and list some useful observable that can probe the couplings described above. The outline of the thesis is as follows. We start with brief introduction to SM and Electroweak Symmetry breaking (EWSB) also brieﬂy reviewing SM Higgs production and decay at the LHC. We then investigate the information that the Higgs mass in conjunction with stability of the EWSB vacuum provides about the stop sector of the MSSM. We further investigate the information that Higgs decay rates in conjunction with the stability of the EWSB vacuum could provide about the stau sector in the MSSM. We move on to examining the extent to which an invisible branching ratio of the Higgs could be measured or excluded directly at the LHC. Coming to the second part of the thesis we examine in a model independent way the nature of the Higgs-gauge boson couplings. We ﬁrst give a brief description of the Higgs gauge boson vertex and the eﬀective theory approach following it up with a description of how this could be probed using Higgs decays. We then follow it up with a study on how the Lorentz structure could aﬀect Higgs production in Vector Boson fusion and Higgs production in association with W or Z boson. Finally, we show how the CP properties of the Higgs coupling to the top quark can be investigated using tth production along with Higgs rates. Physics Beyond The Standard Model (BSM) Large Hadron Collider Higgs Boson Supersymmetry Particle Physics Top-Higgs Interactions Standard Model High Energy Physics hV V Couplings LHC Vh Production Vector Boson Fusion High Energy Physics
35	Contribution to the construction of the Insertable B-Layer of ATLAS for high luminosity upgrade and Research for invisible Higgs / Contribution a la construction du detecteur interne d’ATLAS pour la phase haute luminosité et Recherche de boson de Higgs en mode invisible Bassalat, Ahmed 16 December 2015 (has links) Pour la deuxième période de prise des données du LHC (Run 2) de 2015 - 2022, une quatrième couche de senseurs pixels a été installée dans le détecteur de l’existence ATLAS sur un tube de faisceau de plus petit diamètre afin d’ajouter de la redondance pour améliorer la reconstruction des trajectoires des particules chargées. Ce détecteur du pixel permettra d’assurer un suivi de la qualité de l’étiquetage des mesons b haute luminosité (b-tagging). Au cours des deux dernières années plusieurs composants ont été produits et assemblés sur des structures de soutien appelées échelles. Au total, 20 échelles ont été construites et qualifiées en cardere d’un procédé d’assurance qualité définie par ATLAS au CERN. Quatorze échelles ont été intégrées sur le tube de faisceau. Ceci constitue la première partie de la thèse dédiée à la partie construction du détecteur. La deuxième partie est consacrée à la recherche de boson de Higgs issu de collisions proton proton l’énergie du 8 TeV centre de masse de, se désintégrant en particules invisibles une luminosité integrée de 20.3 fb−1 enregistrées par le détecteur ATLAS au LHC. Les résultats sont interprétés dans les modèles de matière noire Higgs portail(Higgs portal Dark Matter). / For Run 2 of the LHC a fourth, innermost Pixel Detector layer on a smaller radius beampipe has been installed in the ATLAS Detector to add redundancy against radiation damage ofthe current Pixel Detector and to ensure a high quality tracking and b-tagging performance ofthe Inner Detector over the coming years until the High Luminosity Upgrade. State of the artcomponents have been produced and assembled onto support structures known as staves overthe last two years. In total, 20 staves have been built and qualified in a designated QualityAssurance setup at CERN of which 14 have been integrated onto the beam pipe. In the secondpart, A search for a Higgs boson produced via vector-boson fusion and decaying into invisibleparticles is discussed, using 20.3 fb−1 of proton proton collision data at the centre of massenergy of 8 TeV recorded by the ATLAS detector at the LHC. For a Higgs boson with a massof 125 GeV, assuming the Standard Model production cross section, an upper bound of 0.28is set on the branching fraction of H →invisible at 90% confidence level, where the expectedupper limit is 0.31. The results are interpreted in model of Higgs portal dark matter where thebranching fraction limit is converted into upper bounds on the dark matter nucleon scatteringcross section as a function of the dark matter particle mass, and compared to results from thedirect dark matter detection experiments. Haute luminausité Upgrade Higgs ATLAS IBL Beyond Standard Model(BSM) W-Boson Asymétrie de Charge, Invisible Matière Noire, LHC CERN High Luminosity Upgrade Higgs ATLAS IBL Pixel W-Boson Charge Asymmetry Invisible Dark-Matter LHC CERN
36	Search for disappearing tracks in proton-proton collisions at √s = 13 TeV Hart, Andrew Evan 18 September 2018 (has links) No description available. Atoms and Subatomic Particles Particle Physics Physics disappearing track AMSB anomaly-mediated supersymmetry CMS LHC CERN particle physics high-energy physics physics chargino long-lived particle beyond the standard model BSM supersymmetry hadron collider particle collider neutralino
37	適合台灣製造業CMDB導入方法之研究劉丹雯 Unknown Date (has links) 隨著企業越來越重視資訊科技服務管理及流程效能的議題，加上過去兩年由國內外資訊大廠所倡導的ITIL觀念也漸漸成形，部分大型企業已開始依據ITIL所定義的資訊處理流程，逐步導入於其企業內部作業流程中。除了ITIL標準與解決方案外，如何有效地建置CMDB 成為實施ITIL重要的一環。根據itSMF於2006提出的分析，導入ITIL時，企業主要面臨的幾項挑戰，包括： 1. 組織成員是否願意接受、付出及執行。 2. 高階管理階層是否願意支持、並提供足夠的資源。 3. 如何將ITIL整合到現有的管理流程、執行及評價ITIL的成功價值。 4. 設計及具體呈現ITIL的執行過程。 5. 如何建立一個合適的組織架構、如角色定位、責任及權利劃分……等。 6. 如何獲得及整合各種支援技術或工具。 ITIL 所強調「IT 即業務，業務即IT」的資訊化社會之成形，也是必然的發展方向。從各學術期刊文獻中可以找出以ITIL 為研究主題之學術論文，然而，卻難以找到以ITIL 之核心 CMDB為探討主題之學術論文。本研究從探討台灣製造業電子化特性，佐以各家導入CMDB的方法論，透過案例分析探討導入CMDB 之方法論，推論出台灣製造業導入CMDB前考慮之特性以及更適合台灣的製造業之CMDB之導入方法論。藉由此四大階段的CMDB導入方法，能協助資訊部門在導入 CMDB時能有一個指引可遵循，能夠有效率的導入CMDB，達到Quick Win的目標。效益包括： 1. 依據ITIL或BSM 藍圖，找出企業IT 服務管理問題所在。並由台灣製造業商業模式，製造模式及運籌模式推出製造業導入CMDB前考慮的特性，得出核心服務並定義服務模型，依重要狀況先後導入。 2. 從四家CMDB導入方法整理出四大階段，此四大階段導入方法符合製造業快速得出成效的要求，並定義每一階段步驟、里程碑及產出文件。 3. 台灣製造業可將此方法論做為導入CMDB 之參考。其他產業亦可將此方法論做為參考。企業可根據實際情況，決定自那個階段切入。 / As the concept of ITIL is widely being promoted across various industries, the topics of IT Service Management and Process Availability are becoming the focal points for many enterprises. Many large enterprises have already implemented ITIL-compliant processes throughout their internal IT organizations. Among many ITIL-related projects, the effective and efficient implementation of CMDB is of particular importance. Nevertheless, it is hard to find research conducted on CMDB, the integral component of ITIL, even though there is no shortage of academic literature on ITIL subject alone. This thesis seeks to define the pre-implementation requirements and implementation methodologies of CMDB that are most suited to manufacturing industries in Taiwan through the application of case studies. The focus on business priority is no doubt the next step in the IT evolution. This paper seeks to assist IT organizations accomplishing the goals of implementing CMDB effectively and efficiently, and define the critical success factors needed to achieve quick wins. The benefits include: 1. Explore the issues within the enterprise IT Service Management with the help of ITIL or Business Service Management Blueprint. Define CMDB’s pre-implementation requirements, implementation phases, and the resulting service models while considering the unique business model and strategy-making processes of Taiwanese manufacturing industries. 2. Consolidate the four CMDB implementation phases necessary to achieve quick-wins from four CMDB implementation cases, and define the procedures, milestones and deliverables of each phase. 3. This four-phase methodology can act as the reference to CMDB implementation not only to Taiwanese manufacturing industries, but other industries as well. Enterprises can decide the most suitable phase to initiate the CMDB project as they see fit. 資訊科技服務管理資訊技術基礎架構庫商業服務管理組態管理資料庫 ITSM ITIL BSM business service management CMDB configuration management database
38	Recherche de nouvelle physique au LHC par l'étude du spectre de masse des paires de leptons à 7 TeV dans CMS / Search for new physics at the LHC through the study of the lepton pairs mass spectrum at 7 TeV in CMS Dero, Vincent 19 December 2011 (has links) Cette thèse a été réalisée dans le cadre du LHC (Large Hadron Collider). Le LHC produit des collisions proton-proton avec une énergie dans le centre de masse de 7 TeV au CERN depuis mars 2010. C'est le collisionneur doté de la plus grande énergie dans le centre de masse et de la plus grande intensité de faisceaux jamais construit ;ce qui permet de pouvoir rechercher des processus physiques très rares associés à des énergies encore jamais atteintes. L'expérience CMS (Compact Muon Solenoid), au LHC, est un détecteur généraliste pour de nombreuses études de physique. CMS va fournir un outil très précieux pour tester la physique à l'échelle du TeV. Il possède des caractéristiques qui en font un excellent détecteur pour la reconstruction et la mesure des leptons.<p><p>Le Modèle Standard de la physique des particules élementaires décrit les particules élementaires et trois des quatre interactions fondamentales (l'électromagnétisme, la force faible et la force forte). La volonté de décrire les quatre forces fondamentales en une seule et même théorie, ainsi que des insuffisances du Modèle Standard, ont mené les physiciens à élaborer de nouvelles approches théoriques. Plusieurs de ces théories prédisent l'existence de nouveaux bosons massifs, pouvant se désintégrer en une paire de leptons chargés. L'objet de cette thèse est la recherche de tels bosons massifs se désintégrant en une paire ee ou e-mu dans le détecteur CMS, en utilisant les données prises au LHC en 2010 (35 pb-1) et en 2011 (3.35 fb-1).<p><p>A priori, les canaux dileptoniques sont appropriés pour rechercher des signaux de nouvelle physique dans la phase de démarrage d'un collisionneur hadronique. Néanmoins, il est important de vérifier que la réponse du détecteur, décrite par les simulations détaillées de celui-ci, est conforme aux attentes. Ceci constitue une partie importante de ma thèse. <p><p>J'ai mis en évidence au cours de ce travail, au moyen de simulations par Monte Carlo, que le processus t-tbar contribuait de façon significative au bruit de fond pour les paires de leptons de même saveur, juste après le processus de Drell-Yan par ordre d'importance. Je me suis alors consacré à l'étude de ce bruit de fond et à la vérification des prédictions des simulations à partir des données. <p><p>J'ai mis en place une méthode originale de mesure du bruit de fond dileptonique, incluant le t-tbar, en exploitant le taux d'embranchement des processus dileptoniques en paires e-mu, deux fois plus important que le taux d'embranchement en paires de leptons de mêmes saveurs. Cette méthode, appelée la méthode e-mu, a permis de vérifier avec précision la prédiction des générateurs pour la simulation des processus dileptoniques dans le canal e-mu en 2010.<p> <p>Enfin, cette expertise m'a permis de rechercher une résonance dans le spectre de masse des paires e-mu en 2011 et de mettre des limites sur un modèle particulier à dimensions supplémentaires prédisant la coexistence de nouveaux bosons massifs dont certains se désintègrent sans conserver les nombres leptoniques. Pour ce modèle particulier, des limites supérieures à 95% C.L. sur les sections efficaces ont été placées respectivement à 1.37 x 10^{-3}, 1.33 x 10^{-3} et 1.32 x 10^{-3} pb pour des résonances de 1, 1.5 et 2 TeV. Pour un modèle généraliste de résonance Z' se désintégrant en une paire e-mu de charges opposées, des limites supérieures à 95% C.L. de 3.0, 3.0 et 3.0 événements ont aussi été placées pour les trois points de masse. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Physique Sciences exactes et naturelles Particles (Nuclear physics) Leptons (Nuclear physics) Particules (Physique nucléaire) Leptons (Physique nucléaire) particle physics LHC nouvelle physique new physics GUT physique des particules élémentaires BSM au delà du Modèle Standard leptons CMS
39	Search for Higgs boson decays to beyond-the-Standard-Model light bosons in four-lepton events with the ATLAS detector at the LHC Chiu, Justin 22 December 2020 (has links) This thesis presents the search for the dark sector process h -> Zd Zd -> 4l in events collected by the ATLAS detector at the Large Hadron Collider in 2015--2018. In this theorized process, the Standard Model Higgs boson (h) decays to four leptons via two intermediate Beyond-the-Standard-Model particles each called Zd. This process arises from interactions of the Standard Model with a dark sector. A dark sector consists of one or more new particles that have limited or zero interaction with the Standard Model, such as the new vector boson Zd (dark photon). It could have a rich and interesting phenomenology like the visible sector (the Standard Model) and could naturally address many outstanding problems in particle physics. For example, it could contain a particle candidate for dark matter. In particular, Higgs decays to Beyond-the-Standard-Model particles are well-motivated theoretically and are not tightly constrained; current measurements of Standard Model Higgs properties permit the fraction of such decays to be as high as approximately 30%. The results of this search do not show evidence for the existence of the h -> Zd Zd -> 4l process and are therefore interpreted in terms of upper limits on the branching ratio B(h -> Zd Zd) and the effective Higgs mixing parameter kappa^prime. / Graduate dark sector dark photon ATLAS LHC Higgs boson Higgs BSM SM Standard Model beyond the Standard Model search Zd Zdark Large Hadron Collider electrons muons Higgs decays hidden sector kinetic mixing Higgs mixing U(1) hypercharge Higgs portal dark matter symmetry breaking data-driven fake background Z_d detector particle physics hep hep-ex high energy physics CERN run-2 fake factor

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