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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
121

Techniques to measure the NC background in the SNO experiment

Heron, Heidi January 1998 (has links)
No description available.
122

Prompt atmospheric neutrino fluxes: perturbative QCD models and nuclear effects

Bhattacharya, Atri, Enberg, Rikard, Jeong, Yu Seon, Kim, C.S., Reno, Mary Hall, Sarcevic, Ina, Stasto, Anna 28 November 2016 (has links)
We evaluate the prompt atmospheric neutrino flux at high energies using three different frameworks for calculating the heavy quark production cross section in QCD: NLO perturbative QCD, k(T) factorization including low-x resummation, and the dipole model including parton saturation. We use QCD parameters, the value for the charm quark mass and the range for the factorization and renormalization scales that provide the best description of the total charm cross section measured at fixed target experiments, at RHIC and at LHC. Using these parameters we calculate differential cross sections for charm and bottom production and compare with the latest data on forward charm meson production from LHCb at 7TeV and at 13TeV, finding good agreement with the data. In addition, we investigate the role of nuclear shadowing by including nuclear parton distribution functions (PDF) for the target air nucleus using two different nuclear PDF schemes. Depending on the scheme used, we find the reduction of the flux due to nuclear effects varies from 10% to 50% at the highest energies. Finally, we compare our results with the IceCube limit on the prompt neutrino flux, which is already providing valuable information about some of the QCD models.
123

Measuring antineutrino oscillations with the MINOS experiment

Evans, Justin John January 2008 (has links)
MINOS is a long baseline neutrino oscillation experiment. A manmade beam of predominantly muon neutrinos is detected both 1 km and 735 km from the production point by two functionally identical detectors. A comparison of the energy spectra measured by the two detectors shows the energy-dependent disappearance of muon neutrinos characteristic of oscillations and allows a measurement of the parameters governing the oscillations. This thesis presents work leading to measurements of disappearance in the 6% ∇<sub>μ</sub> background in that beam. A calibration is developed to correct for time-dependent changes in the responses of both detectors, reducing the corresponding uncertainty on hadronic energy measurements from 1.8% to 0.4% in the near detector and from 0.8% to 0.4% in the far detector. A method of selecting charged current ∇<sub>μ</sub> events is developed, with purities (efficiencies) of 96.5% (74.4%) at the near detector, and 98.8% (70.9%) at the far detector in the region below 10~GeV reconstructed neutrino energy. A method of using the measured near detector neutrino energy spectrum to predict that expected at the far detector is discussed, and developed for use in the ∇<sub>μ</sub> analysis. Sources of systematic uncertainty contributing to the oscillation measurements are discussed. In the far detector, 32 ∇<sub>μ</sub> events are observed below a reconstructed energy of 30 GeV, compared to an expectation of 47.8 for Δm̄<sup>2</sup><sub>atm</sub> = Δm<sup>2</sup><sub>atm</sub>, sin<sup>2</sup>(2‾θ<sub>23</sub>) = sin<sup>2</sup>(2θ<sub>23</sub>). This deficit, in such a low statistics sample, makes the result difficult to interpret in the context of an oscillation parameter measurement. Possible sources for the discrepancy are discussed, concluding that considerably more data are required for a definitive solution. Running MINOS with a dedicated ∇<sub>μ</sub> beam would be the ideal continuation of this work.
124

Probing new physics mechanisms in neutrinoless double-beta decay with SNO+

Back, Ashley Robert January 2018 (has links)
In this thesis, I present the theory of neutrinoless double-beta decay (0 2 ), particularly the theory of exotic modes of 0 2 involving the emission of one or two Majorons. Alongside this, I summarise the most recent results in the experimental search for 0 2 , including limits on the rate of these exotic processes. I describe the SNO+ experiment and it's physics goals, which include the search for 0 2 . As part of the SNO+ collaboration, I have made a signi cant contribution towards the development of the data quality software that is essential for ensuring SNO+ can achieve its physics goals-including in 0 2 searches. I describe how I developed a software package that performs the high-level data quality checks. Continuing with the software theme, I then describe a python-based limit-setting and tting software package called echidna. I have been a lead developer of echidna as part of my PhD, so I describe the software in detail and how it can be used to set limits on 0 2 signals. By reproducing the sensitivity results of the KamLAND-Zen experiment, in four key Majoronemitting 0 2 modes, I verify the use of echidna as a limit-setting tool for this type of search. Finally, I present the results of a comprehensive sensitivity study, where I determine the potential sensitivity of SNO+ to the same set of Majoron-emitting modes that KamLAND-Zen and other 0 2 experiments have already investigated.
125

Study of Electromagnetic Interactions in the MicroBooNE Liquid Argon Time Projection Chamber

Caratelli, David January 2018 (has links)
This thesis presents results on the study of electromagnetic (EM) activity in the MicroBooNE Liquid Argon Time Projection Chamber (LArTPC) neutrino detector. The LArTPC detector technology provides bubble-chamber like information on neutrino interaction final states, necessary to perform precision measurements of neutrino oscillation parameters. Accelerator-based oscillation experiments heavily rely on the appearance channel νµ → νe to make such measurements. Identifying and reconstructing the energy of the outgoing electrons from such interactions is therefore crucial for their success. This work focuses on two sources of EM activity: Michel electrons in the 10-50 MeV energy range, and photons from π^0 decay in the ~30-300 MeV range. Studies of biases in the energy reconstruction measurement, and energy resolution are performed. The impact of shower topology at different energies is discussed, and the importance of thresholding and other reconstruction effects on producing an asymmetric and biased energy measurement are highlighted. This work further presents a study of the calorimetric separation of electrons and photons with a focus on the shower energy dependence of the separation power.
126

Les expériences Nucifer et Stéréo : étude des antineutrinos de réacteurs à courte distance / The Nucifer and Stereo experiments : a study of reactor antineutrinos at short baseline

Pequignot, Maxime 30 September 2015 (has links)
Interagissant très peu avec leur environnement, les neutrinos peuvent aujourd'hui être clairement détectés à l'aide d'une technologie largement éprouvée reposant sur l'utilisation de liquide scintillant et de photo-multiplicateurs. Les progrès réalisés ces dernières années permettent de réduire la taille et la complexité des détecteurs et laissent ainsi entrevoir les premières applications à ces particules. Première expérience placée à 7,2 m d'un coeur de réacteur nucléaire, le détecteur Nucifer démontre la possibilité de compter les antineutrinos venant du combustible à cette faible distance induisant un environnement très défavorable en terme de bruits de fond. Dans cette thèse, nous présentons l'analyse ayant permis de rejeter les différents bruits de fond venant du réacteur et de son circuit de désactivation mais aussi des muons atmosphériques. Une prédiction du taux d'antineutrinos avec différentes simulations Monte-Carlo a également été réalisée et se trouve en accord avec le taux mesuré dans la limite des incertitudes statistiques et systématiques. Sur près d'un an de prise de données, nous avons pu suivre l'évolution en puissance du réacteur Osiris. Une étude de sensibilité a montré que la présence de plutonium dans le coeur d'Osiris était détectable à 95 % CL dès que cet isotope contribue à hauteur de 10 % de la masse fissile (1,5 kg dans Osiris). En outre, le détecteur a montré une grande stabilité tout au long de la prise de données prouvant que le contrôle à distance des réacteurs nucléaires est possible. Cette expérience ouvre donc la voie à de nouveaux modes de contrôle des réacteurs nucléaires pour les autorités de sûreté. Dans le cadre des travaux sur les spectres d'antineutrinos émis par les réacteurs nucléaires, un déficit a récemment été mis en évidence dans le taux des antineutrinos mesurés pour les expériences à courte distance des réacteurs. Ce déficit, appelé anomalie réacteur, pourrait trouver son origine dans une nouvelle oscillation à travers un état stérile du neutrino à l'électronvolt. L'expérience Stéréo a pour but de trancher sur l'existence ou non de cette oscillation en se plaçant à 10 m du réacteur nucléaire de l'ILL. En observant une distorsion à la fois en énergie et en distance, le détecteur permettra en effet d'apporter une conclusion solide sur ce phénomène. Nous revenons ici sur le développement du projet et sur les différents choix technologiques réalisés pour améliorer la sensibilité de l'expérience. Une attention particulière est portée sur l'estimation des bruits de fond provenant du réacteur nucléaire ainsi que des expériences voisines utilisant des faisceaux de neutrons. Des mesures expérimentales alliées à des simulations ont permis de quantifier les flux de rayons gammas et de neutrons ainsi que leur direction afin de prévoir les blindages nécessaires. Enfin, nous présentons les performances du prototype correspondant à une cellule du détecteur final. / In spite of a faint interaction with their environment, neutrinos can be now clearly detected thanks to a proven technology based on liquid scintillators and photomultiplier tubes. The advances made these last years allow to reduce the size and the complexity of the detectors and therefore naturally lead to the first applications with these particles. As the first experiment to be placed at 7.2 m of a nuclear core, the Nucifer detector demonstrates the possibility of counting antineutrinos coming from the nuclear fuel at such a short baseline despite the very unfavourable environment in term of the background noises. In this thesis, we present an analysis which rejects the various background noises coming from the reactor and its deactivation circuit but also from the atmospheric muons. A prediction of the antineutrino rate with several Monte-Carlo simulations was also performed and is in good agreement with the measured rate, within statistical and systematic uncertainties. After nearly one year of data taking, we were able to follow the power evolution of the reactor Osiris. A sensibility study showed that the presence of plutonium in the Osiris core was detectable at 95 % CL as soon as this isotope contributes at the level of 10 % of the fissile mass (1,5 kg in Osiris). Besides, the detector was very stable throughout the data taking proving that the remote control of nuclear reactor with a neutrino detector is possible. Thus, this experiment opens the way to new control modes of nuclear reactors by the nuclear safety authorities. As part of the work on the antineutrino spectra emitted by nuclear reactors, a deficit was recently highlighted in the observed antineutrino rate for the experiments at short baseline. This deficit, called the reactor anomaly, could be explain by a new oscillation into a sterile state of the neutrino at the electronvolt scale. The Stereo experiment aims to test the existence of this oscillation by performing measurements 10 m away from the ILL nuclear reactor. By observing a distortion pattern of the energy and distance dependence of the neutrino spectrum, the detector will be able to provide a solid proof of this phenomenon. We present here the project development and the various technological choices that we have done to improve the experiment sensibility. The estimation of the background noise coming from the nuclear reactor as well as the nearby experiments using neutron beams has been performed with on-site measurements and simulations to design the shielding of the detector. Eventually we present the performances of the prototype which corresponds to one cell of the final detector.
127

Charm production and prompt neutrino fluxes in beam dump and collider experiments

Bai, Weidong 01 May 2018 (has links)
This dissertation deals with the neutrino fluxes that come from charm decays in hadronic collisions in beam dump and collider experiments. The specific focus is on the beam dump experiment SHiP (Search for Hidden Particles) and the collider experiment LHC (Large Hadron Collider). Based on the HVQMNRPHO computer program, the next-to-leading order (NLO) perturbative QCD (pQCD) calculation is performed for charm quark. Two nonperturbative effects, the initial transverse momentum and fragmentation are modeled by a Gaussian function and the Peterson fragmentation function, respectively. The parameters in these two models are determined by comparisons with the experimental data. The distributions of charm hadrons $D_s^-$, $D^-$, $D^0$ and $\Lambda_c^-$ are thus obtained. By considering the full 3-Dimensional kinematics of the charm hadron decays in the hadron rest frame and then Lorentz transforming to the lab frame, the tau neutrino and muon neutrino fluxes are obtained. The number of neutrino charged current (CC) events at the neutrino detector are evaluated for SHiP and the LHC. The NLO pQCD evaluation predicts about 300 tau neutrino and antineutrino events for SHiP which is much higher than the number of tau neutrino events observed already at OPERA (Oscillation Project with Emulsion-tRacking Apparatus) and DONuT (Direct observation of the nu tau), and thus provides the potential to study the tau neutrino interactions with high statistics. An estimate of the possible intrinsic charm production has been performed for SHiP which may make its presence in the hadron and neutrino specta. Hundreds of tau neutrino and antineutrino events per year per kilogram of lead are achievable for a very far-forward neutrino detector at the LHC.
128

Neutrinos from gamma-ray bursts, and the multi-messenger connection / Neutrinos von Gammablitzen und die Verbindung zu multiplen Botenteilchen

Baerwald, Philipp January 2013 (has links) (PDF)
In this work, we take a look at the connection of gamma-ray bursts (GRBs) and ultra-high-energy cosmic rays (UHECR) as well as the possibilities how to verify this connection. The currently most promising approach is based on the detection of high-energy neutrinos, which are associated with the acceleration of cosmic rays. We detail how the prompt gamma-ray emission is connected to the prediction of a neutrino signal. We focus on the interactions of photons and protons in this regard. At the example of the current ANTARES GRB neutrino analysis, we show the differences between numerical predictions and older analytical methods. Moreover, we discuss the possibilities how cosmic ray particles can escape from GRBs, assuming that UHECR are entirely made up of protons. For this, we compare the commonly assumed neutron escape model with a new component of direct proton escape. Additionally, we will show that the different components, which contribute to the cosmic ray flux, strongly depend on the burst parameters, and test the applicability on some chosen GRBs. In a further step, we continue with the considerations regarding the connection of GRBs and UHECR by connecting the GRB source model with the cosmic ray observations using a simple cosmic ray propagation code. We test if it is possible to achieve the observed cosmic ray energy densities with our simple model and what the consequences are regarding the prompt GRB neutrino flux predictions as well as the cosmogenic neutrinos. Furthermore, we consider the question of neutrino lifetime and how it affects the prompt GRB neutrino flux predictions. In a final chapter, we show that it is possible to apply the basic source model with photohadronic interactions to other types of sources, using the example of the microquasar Cygnus X-3. / In dieser Arbeit beschäftigen wir uns mit dem Zusammenhang von Gammablitzen (GRBs) und ultra-hochenergetischer kosmischer Strahlung (UHECR) sowie mit den Möglichkeiten, wie dieser Zusammenhang überprüft werden kann. Der zur Zeit erfolgsversprechendste Ansatz basiert auf der Detektion von hochenergetischen Neutrinos, die mit der Beschleunigung von kosmischer Strahlung assoziiert werden. Wir zeigen detailliert, wie die prompte Emission im Bereich der Gammastrahlung mit der Voraussage eines Neutrinosignals zusammenhängt. Ein besonderes Augenmerk legen wir hierbei auf die Wechselwirkung von Photonen und Protonen. Am Beispiel der aktuellen Analyse des ANTARES Neutrinoteleskops zu Neutrinos von Gammablitzen zeigen wir, wie sich numerische Voraussagen von älteren analytischen Methoden unterscheiden. Des Weiteren diskutieren wir Möglichkeiten, wie die Teilchen der kosmischen Strahlung aus einem Gammablitz entkommen können, wenn die ultra-hochenergetische kosmische Strahlung nur aus Protonen bestehen würde. Wir vergleichen dazu das meistens angenommene Entkommen in Form von Neutronen mit einer neuen Komponente von direkt ausströmenden Protonen. Auch zeigen wir, dass die unterschiedlichen Komponenten, die zur kosmischen Strahlung beitragen, stark von den verwendeten Parametern der Gammablitze abhängen, und uberprüfen die Modelle an einigen ausgewählten Gammablitzen. In einem weiteren Schritt führen wir die Überlegungen zu dem Zusammenhang von Gammablitzen und ultra-hochenergetischer kosmischer Strahlung fort, in dem wir mittels eines einfachen Propagationscodes für kosmische Strahlung eine Verbindung zwischen dem Quellmodell für Gammablitze und den Beobachtungsdaten der kosmischen Strahlung herstellen. Wir überprüfen, inwieweit sich die beobachteten Energiedichten der kosmischen Strahlung mittels unseres einfachen Modells realisieren lassen und welche Konsequenzen dies für die Voraussagen der prompten Neutrinoemission von Gammablitzen sowie den kosmogenischen Neutrinos hat. Außerdem gehen wir der Frage nach, wie die vorausgesagten prompten Neutrinoflüsse von einer endlichen Lebenszeit der Neutrinos beeinflusst werden würden. In einem letzten Kapitel übertragen wir das verwendete grundlegende Quellmodell mit photohadronischen Wechselwirkungen auf eine andere Klasse von Quellen, am Beispiel von Voraussagen fürden Mikroquasar Cygnus X-3.
129

A search for hep neutrinos with the Sudbury Neutrino Observatory

Howard, Christopher William 11 1900 (has links)
This thesis focuses on the search for neutrinos from the solar hep reaction using the combined three phases of the Sudbury Neutrino Observatory (SNO) data. The data were taken over the years 19992006, totalling 1,083 days of live neutrino time. The previous published SNO hep neutrino search was completed in 2001 and only included the first phase of data taking. That hep search used an event counting approach in one energy bin with no energy spectral information included. This thesis will use a spectral analysis approach. The hep neutrino search will be a Bayesian analysis using Markov Chain Monte Carlo (MCMC), and a Metropolis-Hastings algorithm to sample the likelihood space. The method allows us to determine the best fit values for the parameters. This signal extraction will measure the 8B flux, the atmospheric neutrino background rate in the SNO detector, and the hep flux. This thesis describes the tests used to verify the MCMC algorithm and signal extraction. It defines the systematic uncertainties and how they were accounted for in the fit. It also shows the correlations between all of the parameters and the effect of each systematic uncertainty on the result. The three phase hep signal extraction was completed using only 1/3 of the full data set. With these lowered statistics, this analysis was able to place an upper limit on the hep flux of 4.2 10^4 cm2 s1 with a 90% confidence limit. It was able to measure a hep flux of (2.40(+1.19)(-1.60))10^4 cm2 s1. These numbers can be compared with the previous SNO upper limit of 2.310^4 cm2 s1 with a 90% confidence limit, and the standard solar model prediction of (7.970 1.236) 10^3 cm2 s1.
130

Neutrino emission from high-energy component gamma-ray bursts

Olivo, Martino January 2010 (has links)
Gamma-ray bursts (GRBs) are brief and sudden explosions radiating most of their energy in the soft γ-ray band ( 100 keV). In the context of multimessenger astroparticle physics recent observations of GRBs provide an excellent benchmark for testing theoretical models of high energy emission mechanisms. Acceleration of hadrons in the engine is expected to produce high energy neutrinos and gamma-rays simultaneously via π±/π0 decays, thus reinforcing the motivation for coincident searches in km3 neutrino telescopes. The Waxman-Bachall spectra and the corresponding expected neutrino rates in IceCube are derived here for GRB090510 amd GRB090902B recently detected by the Fermi Large Area Telescope. The implications of the significant detection of deviations from the Band function fit in photon spectra and a model that explains these extra-components in terms of π0-decay photons are presented here and the relevance to neutrino astronomy is shown.

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