Neutrinos de supernovas / Neutrinos from supernovae

Basto Gonzalez, Victor Saul, 1977-

10 October 2008

Orientador: Orlando Luis Goulart Peres. / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Física Gleb Wataghin. / Made available in DSpace on 2018-08-12T10:38:02Z (GMT). No. of bitstreams: 1 BastoGonzalez_VictorSaul_M.pdf: 1541009 bytes, checksum: b798dea659147d5050c68800d40ceb0a (MD5) Previous issue date: 2008 / Resumo: Com este trabalho buscamos entender o fenômeno de oscilações de neutrinos na matéria. Para isto, estudamos a propagação de neutrinos em Supernovas. O estudo é feito nestes objetos astrofísicos, pois são produzidos neutrinos de todos os sabores quando a estrela progenitor da Supernova é muito massiva. Além de isto, estes corpos celestes atingem densidades muito maiores que a densidade solar. Uma razão adicional muito importante é que os neutrinos são mensageiros ideais e poderão ser observados antes mesmo da observação óptica da explosão de Supernova, assim eles podem fornecer informação sobre os processo que levam à formação de Supernova. Para fazer esse estudo consideramos os valores atuais dos parâmetros de oscilações de neutrinos e um perfil de densidade para a matéria da estrela moribunda. Encontramos que os neutrinos experimentam o efeito Mikheyev-Smirnov-Wolfenstein (MSW) em dois regimes de densidades diferentes. A existência destas regiões dependerá da hierarquia nas massas dos neutrinos e se é partícula/antipartícula. Encontramos que para no caso de antineutrinos eletrônicos o fluxo na Terra dependerá do tipo de hierarquia e do valor do ângulo de mistura q13, esse ângulo de mistura modificará o tipo de transição pela zona de ressonância de densidades altas na Supernova. Encontramos que o número de eventos, para esses antineutrinos, è diferente se a hierarquia na massa é normal ou invertida. A diferença é mais notória se a luminosidade em neutrinos não está equipartida. Também encontramos que o número de eventos no detector Super-Kamiokande dependerá do tipo de propagação na região mais interna de Supernova para hierarquia invertida e caso q 13 10-3 , podemos ter informação sobre esses ângulo de mistura caso conseguiremos diferenciar o espectro sem oscilação e com oscilação induzido por efeito puramente adiabático. Neste estudo não tivemos em conta o efeito da matéria na Terra. / Abstract: In this work we study the behaviour of the neutrino oscillations in the matter. To do so, we studied the propagation of neutrinos in Supernovae. The study is done on this astrophysical objects because there are produced all avor of neutrinos when the Supernova progenitor star is very massive. Moreover, this celestial bodies reach much higher densities than the solar density. An additional and very important reason to study neutrinos in Supernova is because neutrinos are ideal messengers, thus they could be detected even before of the optical observation of the Supernova explosion. We considered the updated oscillation parameter values for neutrinos and a density profile of the matter in the dying star. Also, we consider that in the neutrino propagation in a medium it is modified by the medium density, being known as Mikheyev-Smirnov-Wolfenstein (MSW) effect. The existence of regions in which the MSW effect is very relevant will depend on the mass hierarchy of the neutrinos/antineutrinos and if they are neutrinos or antineutrinos. We found in the case of anti electron neutrinos that the ux in the Earth will depend on the type of hierarchy and on the value of the mixing angle q 13, that angle will modify the kind of transition in the resonance zone in the regime of high densities in the Supernova. We calculated the number of events for those antineutrinos and we have found that the value depend if the mass hierarchy is normal or inverted. The difference is even more evident if the total luminosity of the neutrinos is not equally distributed between the all neutrino avors. Finally, we also found that the number of events in the Super-Kamiokande detector will depend on the propagation in the Supernova inner region for the inverted hierarchy and when the mixture angle q 13 10-3. In this study we will not consider the Earth¿s matter effect. / Mestrado / Física das Particulas Elementares e Campos / Mestre em Física

Neutrinos massivos

Oscilações de neutrinos

Efeito MSW

Supernova (Estrela)

Massive neutrinos

Neutrino oscillation

MSW effect

Supernova

Fenomenologia de modelos MaVanN's em neutrinos de reator / Phenomenology of MaVaN's models in reactor neutrino data

Carneiro, Mateus Fernandes, 1988-

09 April 2012

Orientador: Pedro Cunha de Holanda / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Física Gleb Wataghin / Made available in DSpace on 2018-08-21T14:05:23Z (GMT). No. of bitstreams: 1 Carneiro_MateusFernandes_M.pdf: 12484894 bytes, checksum: d16e157cbea9d17a89f8d5f01c30ab44 (MD5) Previous issue date: 2012 / Resumo: Mecanismos de Neutrinos de Massa Variável (Mass Varying Neutrinos - MaVaN¿s) são propostos para ligar a escala de massa dos neutrinos com a energia escura no intuito de resolver o problema da coincidência cósmica. Em alguns cenários essa massa pode apresentar uma dependência com a densidade bariônica sentida pelos neutrinos, criando uma massa efetiva que pode depender da densidade bariônica do meio, assim como da densidade de neutrinos. Nesse trabalho nós estudamos as consequências fenomenológicas dessa dependência da massa do neutrino com o meio e nos concentramos onde ela é induzida por interações de Yukawa com um escalar leve que se acopla com neutrinos e outros componentes da matéria ordinária. Sob a hipótese de dominância de uma escala de massa fazemos uma análise de dados do experimento KamLAND que depende de 4 parâmetros: os padrões de oscilação padrão, ?m^{2}_{0,21} e tg^{2}?12, dois novos coeficientes que parametrizam o efeito MaVaN. Além disso introduzimos uma descrição específica da crosta terrestre, onde introduzimos perfis específicos de densidade para cada uma das fontes do experimento. Concluímos que a descrição específica da densidade não afeta a análise no regime do Modelo Padrão. No caso do modelo MaVaN encontramos um efeito de primeira ordem que se manifesta para baixas densidades e melhora consideravelmente a descrição dos dados. A análise permite que encontremos limites para os termos de dependência do meio / Abstract: Mass Varying neutrino mechanisms were proposed to link the neutrino mass scale with the dark energy, addressing the coincidence problem. In some scenarios this mass can present a dependence on the baryonic density felt by neutrinos, creating an effective neutrino mass that depends both on the neutrino and baryonic densities. In this work we study the phenomenological consequences of the environment dependence of neutrino mass and we concentrate on mass varying neutrino (MaVaN¿s) scenarios in which the enviroment dependence is induced by Yukawa interactions of a light neutral scalar particle which couples to neutrino and matter. Under the assumption of one mass scale dominance, we perform a analysis of KamLAND neutrino data wich depends on 4 parameters: the two standard oscillation parameters, ?m^{2}_{0,21} and tg^2?12, and two new coefficients which parameterize the enviroment dependence of neutrino mass. We introduce a Earth¿s crust model to compute precisely the density in each point along the neutrino trajectory. We show that this new description of density does not affect the analysis with the Standard Model case. With the MaVaN model implemented we observe a first order effect in lower densitys, wich lead to a improvement on the description of the data. The analysis allow us to place constraints on the size of the enviroment dependence terms / Mestrado / Física / Mestre em Física

Neutrinos de reatores

Neutrinos de massa variável

Fenomenologia de neutrinos

Reactor neutrinos

Mass varying neutrinos

Neutrino phenomenology

Measurement of neutral-current π⁰ production for νμ interactions in ND280

Williamson, Zachary James

January 2014

This thesis presents a study of neutral-current π⁰ production from <i>ν_µ</i> interactions. The study uses data taken at the Tokai-to-Kamiokande off-axis experiment's near detector (ND280). Monte Carlo studies were used to develop selection criteria to reconstruct event signatures produced from such interactions. This physics analysis focuses on the tracker region of the ND280 subdetector. Other π⁰ analyses using different detector regions are either underway or completed. The physics analysis, after being developed from Monte Carlo studies, was then run on real data. This analysis goes partway towards measuring the neutral-current π⁰-producing neutrino interaction cross-section, by measuring the rate of such interactions in the T2K experiment's near detector, ND280.

539.7

The minimal scale invariant extension of the standard model

Alexander-Nunneley, Lisa Pamela

January 2010

The Minimal Scale Invariant extension of the Standard Model (MSISM) is a model of low-energy particle physics which is identical to the Standard Model except for the inclusion of an additional complex singlet scalar and tree-level scale invariance. Scale invariance is a classical symmetry which is explicitly broken by quantum corrections whose interplay with the quartic couplings can be used to trigger electroweak symmetry breaking. The scale invariant Standard Model suffers from a number of problems, however the inclusion of a complex singlet scalar results in a perturbative and phenomenologically viable theory. We present a thorough and systematic investigation of the MSISM for a number of representative scenarios along two of its three classified types of flat direction. In these scenarios we determine the permitted quartic coupling parameter space, using both theoretical and experimental constraints, and apply these limits to make predictions of the scalar mass spectrum and the energy scale at which scale invariance is broken. We calculate the one-loop effective potential and the one-loop beta functions of the pertinent couplings of the MSISM specifically for this purpose. We also discuss the phenomenological implications of these scenarios, in particular, whether they realise explicit or spontaneous CP violation, contain neutrino masses or provide dark matter candidates. Of particular importance is the discovery of a new minimal scale invariant model which provides maximal spontaneous CP violation, can naturally incorporate neutrino masses, produces a massive stable scalar dark matter candidate and can remain perturbative up to the Planck scale. It can be argued that the last property, along with the classical scale invariance, can potentially solve the gauge hierarchy problem for this model.

539.7

Searching for dark matter in the Galactic Halo with IceCube using high energy cascades

Flis, Samuel

January 2017

The presence of dark matter is inferred at scales ranging from rotations of galaxies to imprints in the CMB – the Big Bang after-glow. The nature of dark matter is, however, still unknown as no detection other than the gravitational one has been made. This thesis presents two analyses searching for a neutrino signal from dark matter annihilations in the Milky Way. The first analysis searched for an excess of νμ charged current events with directions from the central region of the dark matter halo and, was focused on low energy events, thus probing low dark matter particle masses. Approximately 319 days of data collected with the 79-string configuration of the IceCube detector was used in the analysis. Despite a large deficit in the number of observed events the data were found to be consistent with background and upper limits were set on &lt;σⱴ&gt;. At the time of the analysis these limits were the strongest set by a neutrino experiment below 100 GeV. The second analysis was performed on a data sample originally used in an unfolding analysis of the atmospheric and astrophysical neutrino spectra. The data consisted of contained cascade events above 1 TeV collected with the 79-string configuration and the completed detector in the 86-string configuration during two years of data-taking. The limits set by this analysis were more constraining by up to a factor of 10 compared to previous IceCube analyses, and the most competitive limits are set assuming a Burkert halo profile. These two analyses prompted the development of a signal subtraction likelihood method to address the problem of signal contamination in background estimates based on scrambled data. Additionally a study concerning future extensions of IceCube in the Gen2 project is presented. The cascade reconstruction performance was examined and compared for different proposed detector extensions.

IceCube

neutrino

dark matter

halo

Milky Way

Astronomy, Astrophysics and Cosmology

Astronomi, astrofysik och kosmologi

The relationships between neutrino Majorana mass and other physics / ニュートリノマヨラナ質量と他の物理の関係

Ohata, Takahiro

23 March 2021

京都大学 / 新制・課程博士 / 博士(理学) / 甲第22993号 / 理博第4670号 / 新制||理||1670(附属図書館) / 京都大学大学院理学研究科物理学・宇宙物理学専攻 / (主査)准教授 吉岡 興一, 教授 田中 貴浩, 准教授 髙山 史宏 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DFAM

neutrino oscillation

muon g-2 anomaly

axion

dark matter

Majoron

400

FEW-ELECTRON SIGNALS IN LIQUID XENON DARK MATTER DETECTORS

Abigail Kopec (11519857)

22 November 2021

An overwhelming majority of matter in the Universe is dark matter, a substance unlike anything we know. Detecting dark matter particles requires ruling out observed phenomena caused by known particles. This thesis advances efforts toward the detection of dark matter using one of the most sensitive particle detection technologies: the dual-phase liquid xenon time projection chamber. Specifically, data from the XENON1T Experiment, located in Italy, and the Purdue small-scale ASTERiX detector are analyzed. A background of Lead-214 beta decay events can be mitigated by tracing the radioactive Radon-222 decay chain in XENON1T. However, a preliminary reduction of background has a high cost to exposure. Research on several topics was conducted with Purdue undergraduates, including a search for dark matter particles up to the Planck Mass, characterizing backgrounds due to muons, and searching for Boron-8 solar neutrino signals. XENON1T single-scatter dark matter limits were extended to a particle mass of 10¹⁸GeV/c². The ASTERiX detector was modified to characterize a significant background to the smallest detectable energy signatures: single- and few-electron ionization signals. Infrared light was determined to be ineffective at reducing this background, and their rates were observed to decrease inversely with time since an energetic interaction according to a power law. The rates of single- and few- electron backgrounds increase linearly with increased applied extraction fields and increased depth of the initial interaction in the detector. These results indicate that these backgrounds originate at the liquid-gas interface of dual-phase detectors. In exploring a single-photon threshold for initial scintillation signals, a previously unconsidered background of large dark count signals in the photosensors became apparent. The high background of small ionization signals and large dark count signals deterred a search for Boron-8 solar neutrino interactions in XENON1T. These studies are vital to mitigating backgrounds and improving the sensitivity of liquid xenon time projection chambers to new physical phenomena.

Astrophysics

Particle Physics

Dark Matter Detectors Neutrino detectors

Time Projection Chamber

Liquid Xenon

On Fermi-like neutrino acceleration in core-collapsesupernovae and around black hole formation, andthe evolution of observable neutrino flux duringproto-neutron star collapse

Gullin, Samuel

January 2021

Failed supernovae are the implosive final fates of massive stars, where ablack hole is formed. During the collapse, the proto-neutron star emits a huge number of neutrinos, and when the black hole is finally formed, it engulfs theneutrino-emitting material and the signal is cut off. Inspired by the recent work of Nagakura &amp; Hotokezaka (2020), this thesis improves on some parts of theirs imulation work and further explores the neutrino signal from failed supernovae, using a supercomputer to perform Monte Carlo simulations. In particular, we realized the neutrino flux’ time evolution around black hole formation hasn’t previously been studied well, and so it is investigated here, as well as the plausibility of measuring the black hole mass through the shape of the decay. A new component of the signal is presented, an echo of neutrinos emitted before black hole formation that, due to scattering in supersonic material around the black hole, arrive with a time delay of up to 15 ms, and with a significantly higher average energy, for heavy lepton neutrinos around 50 MeV.

Astronomy, Astrophysics and Cosmology

Astronomi, astrofysik och kosmologi

Sensitivity enhancement of the CUORE experiment via the development of Cherenkov hybrid TeO₂ bolometers / Amélioration de la sensibilité de l'expérience CUORE par le développement de bolomètres de TeO₂ hybrides à “lumière Cherenkov

Novati, Valentina

21 November 2018

CUORE est la plus grande expérience qui recherche la double désintégration bêta sans neutrino avec des bolomètres de TeO₂. La découverte de cette transition nucléaire aurait des conséquences décisives sur la scène actuelle de la physique. Les questions suivantes trouveraient une réponse : pourquoi la matière est-elle dominante dans l’Univers? Quelle est la masse du neutrino? Le neutrino est il un particule de Majorana ou de Dirac? Ce travail présente deux approches différentes pour l’amélioration de la sensibilité de CUORE en vue de sa prochaine phase : CUPID. Dans la première partie de ce travail, une étude du modèle thermique pour les bolomètres équipés avec des NTDs est présentée dans le but de mieux comprendre la réponse des détecteurs de CUORE. Les bolomètres sont des détecteurs extraordinaires utilisés pour un grand nombre d’applications en raison de leurs performances remarquables, mais leur modélisation et leur simulation sont loin d’être complètement comprises. Deux mesures ont été effectuées pour évaluer expérimentalement deux paramètres du modèle thermique : la conductance de la colle et celle entre les électrons et les phonons. Dans la deuxième partie de ce travail, la possibilité de détecter la faible lumière Cherenkov émise par le TeO₂ est étudiée à fin de rejeter des événements alpha, le fond principal de l’expérience CUORE. Le défi consiste dans la détection d’un signal de lumière de 100 eV à moyen d’un détecteur équipé avec un NTD qui a normalement un bruit de l’ordre de 100 eV. Cette question peut être résolue grâce à l’effet Neganov-Trofimov-Luke (NTL) qui a permis de baisser le seuil du détecteur de lumière et d'améliorer son rapport signal-sur-bruit. Cet effet exploite la présence d’un champ électrique pour amplifier les signaux thermiques des bolomètres. Le rejet complet du fond alpha a été prouvé avec un photo-bolomètre amélioré par l’effet NTL et couplé à un bolomètre de TeO₂ comme ceux utilisés par CUORE. Une solution convaincante pour le rejet de fond alpha a été démontrée en vue de l’expérience CUPID. / CUORE is the first tonne-scale experiment searching for the neutrinoless double beta decay with TeO₂ bolometers. The discovery of this nuclear transitionwould have decisive consequences on the present physics scene. The following questions would find an answer: why is matter dominant in the Universe? which is the neutrino mass? has the neutrino a Majorana or a Dirac nature? This work presents two different approaches for the enhancement of the CUORE sensitivity with a view to its upgrade: the CUPID experiment. In the first part, a study of the thermal model describing NTD-based bolometers is presented with the objective to achieve a better comprehension of the response of the CUORE detectors. Bolometers are amazing detectors used for a large number of applications because of their impressive high performance, but their modelisation and simulation is far to be completely understood. Two measurements have been performed for an experimental evaluation of two thermal-model parameters: the glue and the electron-phonon conductances. In the second part, the possibility to detect the tiny Cherenkov light emitted by TeO₂ to reject alpha events — the main background of the CUORE experiment — is studied. The challenge consists in the detection of a 100-eV light signal with a NTD-based light detector that usually is characterised by a baseline noise of the order of 100 eV. This issue is solved with the employment of the Neganov-Trofimov-Luke (NTL) effect to lower the energy threshold of the light detector and improve its signal-to-noise ratio. This effect exploits the presence of an electric field to amplify bolometric thermal signals. The full rejection of the alpha background has been proved with one NTL assisted photo-bolometer coupled to a CUORE-size TeO₂ bolometer. A convincing solution for the alpha background rejection has been demonstrated with a view to the CUPID experiment.

Physique des neutrinos

Double décroissance bêta

Détecteurs cryogéniques

Neutrino physics

Double beta decay

Cryogenic detectors

Monitorování energetické stupnice v neutrinovém experimentu KATRIN / Monitoring of the energy scale in the KATRIN neutrino experiment

Slezák, Martin

January 2016

The question of the absolute mass scale of neutrinos is of particular interest for particle physics, astrophysics, and cosmology. The KATRIN experiment (KArlsruhe TRItium Neutrino experiment) aims to address the effective electron antineutrino mass from the shape of the tritium β-spectrum with an unprecedented sensitivity of 0.2 eV/c2 . One of the major systematic effects concerns the experimental energy scale, which has to be stable at the level of only a few parts in a million. For its calibration and monitoring the monoener- getic electrons emitted in the internal conversion of γ-transition of the metastable isotope 83m Kr will be extensively applied. The aim of this thesis is to address the problem of KA- TRIN energy scale distortions and its monitoring in detail. The source of electrons based on 83m Kr embedded in a solid as well as the source based on gaseous 83m Kr are studied. Based on the experimental results an approach for the continuous stability monitoring is proposed. 1