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Measurement of proton and alpha-particle quenching in LAB based scintillators and determination of spectral sensitivities to supernova neutrinos in the SNO+ detectorvon Krosigk, Belina 26 June 2015 (has links)
SNO+, the successor of the Sudbury Neutrino Observatory, is an upcoming low energy neutrino experiment, located in the 2 km deep laboratory SNOLAB, Canada. The spheric acrylic vessel in the detector center will contain 780 t of LAB. The main goal of SNO+ is the search for the neutrinoless double beta decay of 130Te, using a novel scintillator in which natural Te is bound with an initial loading of 0.3% via water and a surfactant. Within this thesis, the first measurement of the Alpha-particle and proton quenching parameters of loaded and unloaded LAB is described.
These parameters are crucial for an efficient background suppression, necessary to reach a sensitivity above the current limit in 76Ge of T1/2(0v) > 2.1 x 10^(25) y (90% C.L.). For 0.3% Te-loading, the quenching parameter obtained is kB = (0.0070 +/- 0.0004) cm/MeV for Alpha-particles and kB = (0.0090 +/- 0.0003) cm/MeV for protons. Additionally, the spectral sensitivity of SNO+ to supernova electron anti-neutrinos and muon and tau (anti-)neutrinos is determined for the first time, using inverse beta decay and v-p elastic scattering with the measured quenching parameters. The obtained sensitivity to the mean energy of electron anti-neutrinos is E = 15.47^(+1.54)_(-2.43) MeV and of muon and tau (anti-)neutrinos is E = 17.81^(+3.49)_(-3.09) MeV. / SNO+, der Nachfolger des Sudbury Neutrino Observatorys, ist ein bevorstehendes Niederenergie-Neutrino-Experiment im 2 km tiefen Untergrundlabor SNOLAB in Kanada. Die Acryl-Kugel im Zentrum des Detektors wird mit 780 t LAB gefüllt werden. Das Hauptziel von SNO+ ist die Suche nach dem neutrinolosen Doppelbetazerfall von 130Te mit einem neuartigen Szintillator, in dem natürliches Te mit einer Anfangskonzentration von 0.3% über Wasser und ein Tensid gebunden wird. In dieser Arbeit wird erstmals die Messung der Alpha-Teilchen und Proton Quenching Parameter in diesem und in normalem LAB beschrieben.
Die Parameter sind unverzichtbar für eine effiziente Untergrund Unterdrückung, die notwendig ist um auf das bestehende Limit in 76Ge von T1/2(0v) > 2.1 x 10^(25) y (90% C.L.) sensitiv zu sein. Der ermittelte Quenching Parameter bei 0.3% Te beträgt kB = (0.0070 +/- 0.0004) cm/MeV für Alpha-Teilchen und kB = (0.0090 +/- 0.0003) cm/MeV für Protonen. Zusätzlich wird erstmals die spektrale Sensitivität von SNO+ auf Supernova Elektron Anti-Neutrinos und Muon and Tau (Anti-)Neutrinos bestimmt über den inversen Betazerfall und die elastische v-p Streuung zusammen mit den gemessenen Quenching Parametern. Die ermittelte Sensitivität auf die mittlere Energie der Elektron Anti-Neutrinos ist E = 15.47^(+1.54)_(-2.43) MeV und der Muon und Tau (Anti-)Neutrinos ist E = 17.81^(+3.49)_(-3.09) MeV.
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Temperature quenching in LAB based liquid scintillator and muon-induced backgrounds in the SNO+ experimentSörensen, Arnd 14 October 2016 (has links)
The starting SNO+ experiment, successor to the Sudbury Neutrino Observatory, is a neutrino detector using LAB based liquid scintillator as active medium. Situated in the SNOLab deep underground laboratory in Sudbury, Canada, the rock overburden amounts to about 6 km.w.e., providing an effective shielding against cosmic rays. The residual muon rate is 63 μ/day going through the detector volume. About 780 t of an LAB mixture inside an acrylic sphere with a 6 m radius will be observed by ≈ 9300 photomultipliers, surrounded by a ≈ 7000 t water shielding. SNO+ will be searching for low energy solar-, geo-, reactor- and supernova neutrinos, but the main goal is the observation of the neutrinoless double beta decay in Te-130. Under operating conditions, the scintillator will be cooled to about 12° C. This work investigated the effect of temperature changes on the light output of LAB based liquid scintillator in a range from -5° C to 30° C with α-particles and electrons in a small scale setup. Assuming a linear behaviour, a combined negative temperature coefficient of (−0.29 ± 0.01) %/° C is found. Considering hints for a particle type dependency, electrons show (−0.17 ± 0.02) %/° C whereas the temperature dependency seems stronger for α-particles (−0.35 ± 0.03) %/° C. A pulse shape analysis shows increased strength of a slow decay component at lower temperatures, pointing to reduced non-radiative triplet state de-excitations at lower temperatures. Furthermore, this work found upper bounds for the in-situ muon-induced isotope production via scaling calculations and simulations with Geant4 based software. For the most concerning isotope C-11, an upper limit of about 1.3 × 10^3 decays/kt/yr is found and a reduction technique, developed by the Borexino collaboration, can be effectively applied for SNO+. Also a muon reconstruction algorithm is implemented, performing reasonably well, but not good enough to improve the background reduction scheme. / Das zukünftige SNO+ experiment, Nachfolger des Sudbury Neutrino Observatory, ist ein Neutrino-Detektor mit LAB basierten Flüssigszintillator als aktivem Medium. Im SNOLab Untertagelabor (Sudbury, Kanada) gelegen, ist es durch die Felsüberdeckung von 6 km.w.e. hervorragend gegen kosmische Strahlung abgeschirmt. Die Rate der übrigen Myonen die das Detektorvolumen durchdringen beträgt ca. 63 μ/Tag. In einer Acrylkugel, mit einem Radius von 6 m, wird eine LAB Mischung von ≈ 9300 Photomultipliern beobachtet und von einer Wasserabschirmung von ≈ 7 kt umgeben. SNO+ wird nach niederenergetischen solaren-, Geo-, Reaktor- und Supernova Neutrinos suchen, aber das Hauptziel ist die Beobachtung von neutrinolosen doppelten Betazerfällen in Te-130. Unter den Betriebsbedingungen wird der Flüssigszintillator eine Temperatur von ca. 12° C annehmen. Diese Arbeit hat den Einfluss von Temperaturveränderungen in einem Bereich von -5° C to 30° C auf die erzeugte Lichtmenge untersucht. Dazu wurden α-Teilchen und Elektronen in einem kleineren Versuchaufbau beobachtet. Unter der Annahme eines linearen Verhaltens, wurde ein globaler negativer Temperaturkoeffizient von (−0.29 ± 0.01) %/° C gefunden. Unter Berücksichtigung von Hinweisen auf eine Teilchenartabhängigkeit, findet sich für Elektronen ein Koeffizient von (−0.17 ± 0.02) %/° C, wohingegen α-Teilchen eine stärkere Abhängikeit von (−0.35 ± 0.03) %/° C aufweisen. Eine Pulsformanalyse zeigt eine bei tieferen Temperaturen stärker ausgeprägte langsame Zerfallskomponente, was darauf hinweist dass die nicht-radiativen Abregungen der Triplet-Zustände bei niedrigeren Temperaturen reduziert sind. Weiterhin wurden in dieser Arbeit obere Ausschlußgrenzen für in-situ Myon-induzierte Isotopenproduktion gefunden, wozu Skalierungsrechnungen und Simulation mit auf Geant4 basierender Software benutzt wurden. Für das wichtigste Isotop C-11 wurde eine obere Grenze von 1.3 × 10^3 Ereignisse/kt/Jahr gefunden und eine Technik zur Reduzierung des Untergrundes, entwickelt von der Borexino Kollaboration, kann effektiv für SNO+ angewendet werden. Darüber hinaus wurde eine Myon Spurrekonstruktion implementiert, die sinnvolle Ergebnisse liefert, aber nicht gut genug ist um die Untergrund Reduzierung zu unterstützen.
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Les Courants neutres et les particules charmée en physique du neutrinoVilain, Pierre January 2005 (has links)
Agrégation de l'enseignement supérieur, Orientation sciences / Thèse d'agrégation / info:eu-repo/semantics/nonPublished
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A Search for Ultra-high Energy Cosmic Neutrinos: Data Analysis of the Antarctic Impulsive Transient Antenna, Third FlightStafford, Samuel J. 07 December 2017 (has links)
No description available.
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Extending the limits in the hunt for long-lived heavy neutral leptons with the ATLAS experiment at the Large Hadron Collider at CERNAppelt, Christian 15 May 2024 (has links)
Eine Suche nach langlebigen, schweren neutralen Leptonen ($\mathcal{N}$)
in 139~fb$^{-1}$ mit $\sqrt{s}=13$~TeV $pp$ Kollisionsdaten der Jahre 2015-2018 mit Hilfe des ATLAS-Detektors am Large Hadron Collider ist präsentiert.
Die $\mathcal{N}$ werden in $W \rightarrow \mathcal{N} \mu$ oder $W \rightarrow \mathcal{N} e$ produziert und zerfallen in zwei geladene Leptonen und ein Neutrino. Die Zerfallsprodukte des $\mathcal{N}$ bilden eine einzigartige versetzte Vertex-Signatur.
Die $\mathcal{N}$ Masse wird mit Hilfe einer neuartigen Technik rekonstruiert und genutzt, um zwischen Signal- und Untergrundereignissen zu differenzieren.
Es wurden keine Signalereignisse beobachtet, Sensitivitätsgrenzen werden auf die quadrierten Mischungsparameter zwischen rechtshändigen und linkshändigen Neutrinos für den $\mathcal{N}$ Massenbereich von $3$~GeV~$< m_{\mathcal{N}} < 15$~GeV gesetzt.
Zum ersten Mal werden diese Sensitivitätsgrenzen für Kopplungen für einen Neutino-Flavour, aber auch für Kopplungen für mehrere Neutrino-Flavour-Mischungsverhältnisse angegeben, die mit den gemessenen Neutrino-Oszillationsdaten für die invertierte und normale Massenhierarchie übereinstimmen.
Zusätzlich zu der bereits abgeschlossenen Suche nach $\mathcal{N}$ werden laufende Aktivitäten skizziert, die 66~fb$^{-1}$ und $\sqrt{s}=13.6$~TeV $pp$ Kollisionsdaten der Jahre 2022-2023 des ATLAS-Detektors und semi-leptonische $\mathcal{N}$ Zerfälle in ein geladenes Lepton und ein geladenes Pion einbeziehen. / A search for a long-lived, heavy neutral lepton ($\mathcal{N}$)
in 139~fb$^{-1}$ of $\sqrt{s}=13$~TeV $pp$ collision data collected between 2015 and 2018 by the ATLAS detector at the Large Hadron Collider is presented.
The $\mathcal{N}$ is assumed to be produced via $W \rightarrow \mathcal{N} \mu$ or $W \rightarrow \mathcal{N} e$ and decays into two charged leptons and a neutrino, forming a unique displaced vertex signature.
A novel technique is used to reconstruct the $\mathcal{N}$ mass that discriminates between signal and background.
No signal is observed, and limits are set on the squared mixing parameters of the $\mathcal{N}$ with the left-handed neutrino states for the $\mathcal{N}$ mass range $3$~GeV~$< m_{\mathcal{N}} < 15$~GeV.
For the first time, limits are given for both single-flavour and multi-flavour mixing scenarios motivated by neutrino-flavour oscillation results for both the normal and inverted neutrino-mass hierarchies.
In addition to the concluded search for $\mathcal{N}$, ongoing efforts are outlined that include 66~fb$^{-1}$ of $\sqrt{s}=13.6$~TeV $pp$ collision data collected between 2022 and 2023 by the ATLAS detector and semileptonic $\mathcal{N}$ decays into a charged lepton and a charged pion.
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Estudo fenomenológico dos neutrinos em experimentos que utilizam fontes terrestres / Phenomenological study of neutrino experiments that use land-based sourcesTeves, Walter José da Costa 17 December 2003 (has links)
Nesta tese, realizamos dois tipos de estudos fenomenológicos através de uma análise detalhada de alguns experimentos terrestres atuais e futuros. No primeiro, estudamos dois mecanismos exóticos de conversão de sabor: descoerência quântica e interações não padrão do neutrino com a matéria. Para descoerência, vinculamos o parâmetro de descoerência bem como testamos como distinguir a solução de descoerência pura do mecanismo padrão de oscilação no contexto de duas gerações. No caso das interações não padrão, assumimos que esta é subdominante frente ao mecanismo de oscilação padrão, e encontramos os possíveis limites que poderão ser obtidos para essas interações utilizando uma fábrica de neutrinos futura. No segundo tipo de estudo, determinamos os parâmetros de oscilação solares pela análise combinada dos dados dos neutrinos solares e de KamLAND, e estimamos a precisão nos parâmetros de mistura atmosféricos que poderá ser atingida pelos experimentos de LongBaseLine futuros MINOS, ICARUS e OPERA. Por fim, investigamos a possibilidade dos experimentos futuros do duplo decaimento sem neutrinos de determinar os parâmetros de não oscilação. / In this thesis, we have done two kind of phenomenological studies through a detailed analysis of present and future terrestrial experiments. In the first study, we analyze two exotic mechanisms of flavour conversion: quantum decoherence and non-standard neutrino-matter interactions. In the case of decoherence, we impose constraints on the decoherence parameter and test how to distinguish between the pure decoherence solution and the standard neutrino ascillation mechanism in the contexto f two neutrino generations. For non-standard interactions, assuming it as a sub-leading process compared to the standard oscillation, we find the possible limits that can be achieved on the strength of these interactions using a future neutrino factory. In the second part of the study, we determine the solar oscillation parameters using a combined analysis of solar neutrino and KamLAND data, and estimate the precision on the atmospheric mixing parameters by that can be accomplished by the LongBaseline experiments MINOS, ICARUS and OPERA. Finally, we investigate the capability of future neutrinoless Double beta decay experiments to determine the non-oscillation parameters.
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[en] POTENTIAL OF A NEUTRINO DETECTOR AT THE ANDES UNDERGROUND LABORATORY FOR THE STUDY OF SUPERNOVA NEUTRINOS / [pt] POTENCIAL DE UM DETECTOR DE NEUTRINOS NO LABORATÓRIO SUBTERRÂNEO DE ANDES PARA O ESTUDO DE NEUTRINOS DE SUPERNOVASTHIAGO MUHLBEIER 20 September 2018 (has links)
[pt] A oportunidade ímpar da construção do primeiro laboratório subterrâneo no Hemisfério Sul precisa ser alicerçada com importantes objetivos científicos, de maneira a competir com os demais laboratórios já existentes ao redor do planeta. Assim, no intuito de auxiliar na solidificação desta ideia, esta tese tem o propósito de verificar o potencial de um detector de neutrinos no futuro laboratório de ANDES para a observação de neutrinos vindos da próxima Supernova Galáctica. A observação de tais partículas é de fundamental importância para a compreensão do mecanismo de explosão de estrelas e para inferir ou desvendar propriedades dos neutrinos. Para tal, simulamos o número de eventos para o decaimento Beta inverso e para o espalhamento elástico v - p que seriam obtidos com a próxima supernova com o detector de ANDES considerando diferentes tipos de cintiladores líquidos, levando em conta o efeito MSW. Mostramos que através do espalhamento elástico v - p é possível reconstruir o fluxo total de todos os sabores de neutrinos, energia média e total liberados por neutrinos não-eletrônicos. Além disso, a comparação da razão dos números de eventos que vem de corrente carregada (depende da oscilação) e de corrente neutra (independente de oscilação), nos permite inferir a hierarquia de massa para alguns casos. Adicionalmente, estudamos a contribuição do laboratório de ANDES para a observação do efeito de matéria da Terra ao compararmos dados com outros detectores do Hemisfério Norte. Finalmente, investigamos a precisão angular para determinar a direção de uma supernova apenas usando o registro de neutrinos, que pode ser o caso de Supernovas que formam buracos negros ou sofram efeito de obscurecimento devido a poeira interestelar. / [en] The unique opportunity of construction of the first underground laboratory in the Southern Hemisphere must be grounded with important scientific goals in order to compete with others already existing laboratories around the word. In order to compete with idea as much as possible, this PhD Thesis aims to investigate the potential of a future neutrino detector at the ANDES laboratory to the observation of such particles is of fundamental importance to understanding the mechanism and starbust inferred or unravel properties of neutrinos as mass hierarchy, for example. To this end, we simulate the number of events for inverse beta decay and the elastic scattering of v - p that would be obtained with nearby supernova at the ANDES detector taking into account different types of liquid scintillator ande the phenomenon of MSW effect. We show that through the v - p elastic scattering is possible to reconstruct the total flux of all flavors of neutrinos, total and average energy released by non-electron neutrinos. furthermore, comparison of the ratio of observed and theoretical prediction, the number of the ANDES laboratory to the Northern Hemisphere. Finally, we investigate the angular precision for determining the direction of the supernova only using its neutrinos, which can be the situation when either supernovae collapses forming black holes or obscuration due to interstellar dust.
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Estudo fenomenológico dos neutrinos em experimentos que utilizam fontes terrestres / Phenomenological study of neutrino experiments that use land-based sourcesWalter José da Costa Teves 17 December 2003 (has links)
Nesta tese, realizamos dois tipos de estudos fenomenológicos através de uma análise detalhada de alguns experimentos terrestres atuais e futuros. No primeiro, estudamos dois mecanismos exóticos de conversão de sabor: descoerência quântica e interações não padrão do neutrino com a matéria. Para descoerência, vinculamos o parâmetro de descoerência bem como testamos como distinguir a solução de descoerência pura do mecanismo padrão de oscilação no contexto de duas gerações. No caso das interações não padrão, assumimos que esta é subdominante frente ao mecanismo de oscilação padrão, e encontramos os possíveis limites que poderão ser obtidos para essas interações utilizando uma fábrica de neutrinos futura. No segundo tipo de estudo, determinamos os parâmetros de oscilação solares pela análise combinada dos dados dos neutrinos solares e de KamLAND, e estimamos a precisão nos parâmetros de mistura atmosféricos que poderá ser atingida pelos experimentos de LongBaseLine futuros MINOS, ICARUS e OPERA. Por fim, investigamos a possibilidade dos experimentos futuros do duplo decaimento sem neutrinos de determinar os parâmetros de não oscilação. / In this thesis, we have done two kind of phenomenological studies through a detailed analysis of present and future terrestrial experiments. In the first study, we analyze two exotic mechanisms of flavour conversion: quantum decoherence and non-standard neutrino-matter interactions. In the case of decoherence, we impose constraints on the decoherence parameter and test how to distinguish between the pure decoherence solution and the standard neutrino ascillation mechanism in the contexto f two neutrino generations. For non-standard interactions, assuming it as a sub-leading process compared to the standard oscillation, we find the possible limits that can be achieved on the strength of these interactions using a future neutrino factory. In the second part of the study, we determine the solar oscillation parameters using a combined analysis of solar neutrino and KamLAND data, and estimate the precision on the atmospheric mixing parameters by that can be accomplished by the LongBaseline experiments MINOS, ICARUS and OPERA. Finally, we investigate the capability of future neutrinoless Double beta decay experiments to determine the non-oscillation parameters.
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[pt] ESTUDO DE VIOLACAO DE CP E FÍSICA ALEM DO MODELO PADRAO ATRAVES DE OSCILACAO DE NEUTRINOS EM DETETORES DE NOVA GERACAO / [en] PROBING CP VIOLATION AND PHYSICS BEYOND THE STANDARD MODEL IN NEUTRINO OSCILLATION BY NEW GENERATION DETECTORSFRANCESCO PESSINA 09 February 2022 (has links)
[pt] Neste trabalho de tese investigaremos um novo método para medir a fase leptóonica de violação CP, CP , com um set up experimental chamado LiquidO e, estudaremos a possibilidade do futuro experimento Hyper-Kamiokande de pôr um limite sobre o tempo de vida do neutrino. Ambos são experimentos que detectam neutrinos de acelerador que performarão as próprias medições através do estudo do bem conhecido fenómeno da oscilação de sabor de neutrinos. O primeiro experimento considerado possui
duas novas características: primeiramente utiliza como fonte de neutrino um fluxo de Vμ e Vμ produzidos por pions (pi+) em repouso a uma distância de 16 km e secondariamente vai usar uma nova forma de detecção. Essa detecção é feita utilizando cintilador liquido opaco com fibras ópticas que permitem distinguir entre e+ e e-. Nós explicaremos as principais propriedades fenomenológicas desta configuração e calcularemos a significância estatística de exclusão da hipótese CP = (0, pi), a precisão de medição de
CP com 1δ de confiança estatística e também as regões permitidas no espaço dos parámetros sin2 023 - δ CP . Na segunda parte do nosso trabalho, nos concentraremos no experimento Hyper-Kamiokande, versão melhorada do experimento Super-Kamiokande que se adjudicou o prémio Nobel em
2015. Este é um detector de luz Cherenkov que utiliza um fluxo de Vμ (Vμ) com energias < 10GeV produzido no acelerador JPARC e colocado a uma distância de 295 km. Neste trabalho identificaremos este experimento como T2HK enquanto para a sua estensão na Korea, que utilizará a mesma fonte
mas será colocada a 1100 km de distância, utilizaremos a sigla T2HKK. Nós introduziremos brevemente as modalidades de decaimento do neutrino que podem ser classificadas em dois tipos: um é chamado decaimento invisível, ou seja, quando o neutrino de origem decai em um estado estéril mais uma
partícula escalar, e o outro e chamdo de decaimento visível, ou seja, quando o neutrino de origem decai em um autoestado de massa ativo mais uma partícula escalar. Em fim calcularemos as sensitividades no limite da vida média do autoestado V3 para os casos de decaimento visível e invisível para as configurações de T2HK e T2HKK. / [en] In this thesis we will study a novel method to measure the leptonic CP violation phase, CP , in an experimental set up called LiquidO, and the possibility by the future experiment Hyper-Kamiokande to put a limit on the neutrino lifetime. Both experiment are accelerator based ones that will
use the well established neutrino flavour oscillation phenomenon to perform their measurement. The first experimental set up uses two new features: firstly it uses as a source a flux of Vμ and Vμ coming from pions (pi+) decay at rest with a baseline of 16 km and secondly it uses a new detection method. This new detection is performed using opaque Liquid Scintillator (LS) with optical fibers that allows e+ e- identification. We will discuss the phenomenological main characteristics of this set up and we will calculate
the expected significance to exclude the δ CP = (0, pi) hypothesis, the 1δ precision of the CP measurement and also the expected allowed regions in the sin2 023 - δ CP plane. For what it concerns the second part of our work, we will focus on the Hyper-Kamiokande experiment, upgrade of the 2015 Nobel prize awarded Super-Kamiokande. This is a water Cherenkov detector that will use a Vμ (Vμ) flux with a typical neutrino energy < 10 GeV coming from the JPARC facility with a baseline of 295 km. We will call this source-detector configuration T2HK to distinguish T2HKK, the possible extension of this experiment in Korea that will use the same beam but it will be located at 1100 km from the source. We will briefly introduce the neutrino decay mode that can be classified in two types: one is what is called invisible decay , i.e. when neutrino decays into a sterile neutrino state plus a scalar particle, and the other is called visible decay, i.e. when neutrino decays into an active mass eigenstate plus a scalar particle. We will calculate the limit on the V3 lifetime for the invisible and the visible case for both configurations T2HK and T2HKK.
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Effects of fermionic singlet neutrinos on high- and low-energy observables / Effets des neutrinos singulets fermioniques sur les observables de haute et basse énergieWeiland, Cedric 04 July 2013 (has links)
Dans cette thèse, nous étudions à la fois des observables de basse et de haute énergie liée à la présence de neutrinos massifs. Les oscillations de neutrinos ont apporté des preuves indiscutables en faveur de l'existence de masses non-nulles et de mélanges. Néanmoins, la formulation originale du Modèle Standard ne permet pas d'expliquer ces observations, d'où la nécessité d'introduire de nouveaux modèles. Parmi de nombreuses possibilités, nous nous concentrons ici sur le seesaw inverse, un mécanisme générant des neutrinos massifs par l'ajout de fermions singulets de jauge au Modèle Standard. Ce modèle offre une alternative attractive aux réalisations habituelles du seesaw puisqu'il a des couplages de Yukawa potentiellement naturels (O(1)) tout en conservant l'échelle de la nouvelle physique à des énergies accessibles au LHC. Parmi de nombreux effets, ce scénario peut générer de larges écarts à l'universalité leptonique. Nous avons étudié ces signatures et trouvé que les rapports R_K et R_π constituent de nouvelles contraintes pour le seesaw inverse. Nous nous sommes aussi intéressé à l'intégration de l'inverse seesaw dans différents modèles supersymétriques. Ceci conduit à une augmentation de la section efficace de divers processus violant la saveur leptonique du fait de contributions plus importantes venant des diagrammes pingouins comportant un boson de Higgs ou Z. Finalement, nous avons aussi trouvé que les nouveaux canaux de désintégration ouverts par la présence de neutrinos stériles dans les modèles de seesaw inverse supersymétriques peuvent significativement relaxer les contraintes sur la masse et les couplages d'un boson de Higgs CP-impair. / In this doctoral thesis, we study both low- and high-energy observables related to massive neutrinos. Neutrino oscillations have provided indisputable evidence in favour of non-zero neutrino masses and mixings. However, the original formulation of the Standard Model cannot account for these observations, which calls for the introduction of new Physics. Among many possibilities, we focus here on the inverse seesaw, a neutrino mass generation mechanism in which the Standard Model is extended with fermionic gauge singlets. This model offers an attractive alternative to the usual seesaw realisations since it can potentially have natural Yukawa couplings (O(1)) while keeping the new Physics scale at energies within reach of the LHC. Among the many possible effects, this scenario can lead to deviations from lepton flavour universality. We have investigated these signatures and found that the ratios R_K and R_π provide new, additional constraints on the inverse seesaw. We have also considered the embedding of the inverse seesaw in supersymmetric models. This leads to increased rates for various lepton flavour violating processes, due to enhanced contributions from penguin diagrams mediated by the Higgs and Z bosons. Finally, we also found that the new invisible decay channels associated with the sterile neutrinos present in the supersymmetric inverse seesaw could significantly weaken the constraints on the mass and couplings of a light CP-odd Higgs boson.
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