Subgrupos do grupo de Lorentz e simetria de matéria escura /

Silva, Marcos Vinícius Ferreira da.

January 2020

Orientador: Julio Marny Hoff da Silva / Resumo: Teorias que violam as simetrias de Lorentz são de certa forma comumente encontradas na literatura. Com o estudo dos subgrupos do grupo de Lorentz, uma pergunta fica no ar. Será preciso todo o grupo de Lorentz para descrever as simetrias do espaço-tempo ou apenas um subgrupo já seria suficiente? Se isso for possível teríamos um teoria que violaria as simetrias de Lorentz e consequentemente outras peguntas surgem. Essa teoria serve para descrever a matéria bariônica ou outro tipo de matéria? Neste trabalho usaremos os grupos da very special relativity (VSR) que são subgrupos do grupo de Lorentz e tentaremos responder essas perguntas com base em cálculos e em experimentos largamente difundidos na literatura: o experimento de Michelson-Morley e o fenômeno da precessão de Thomas. Também discutiremos algumas consequências advindas de uma teoria quântica de campos que viola as simetrias de Lorentz. / Mestre

Precessão de Thomas

VSR

Matéria escura

Teoria quântica de campos.

Thomas precession

Dark matter

Quantum Field Theory

Matéria escura (Astronomia)

Teoria quântica de campos.

Simetria (Física)

Relatividade (Física)

Non-contrast-enhanced hepatic MR arteriography with balanced steady-state free-precession and time spatial labeling inversion pulse: optimization of the inversion time at 3 Tesla / balanced SSFP法とTime-SLIP法を併用した肝動脈の非造影MR angiography：3テスラMR装置における撮像条件の最適化

Kawahara, Seiya

24 November 2017

京都大学 / 0048 / 新制・論文博士 / 博士(医学) / 乙第13133号 / 論医博第2137号 / 新制||医||1024(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 溝脇 尚志, 教授 妹尾 浩, 教授 鈴木 実 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM

Non-contrast-enhanced hepatic

magnetic resonance (MR) angiography

balanced steady-state free-precession

time spatial labeling inversion pulse

3 Tesla magnetic resonance imaging (MRI)

490

Paleohydrology of West Africa Using Carbonate, Detrital and Diagenetic Minerals of Lake Bosumtwi, Ghana

Abebe, Nardos Tilahun

21 May 2010

No description available.

Environmental Science

Geology

Mineralogy

Oceanography

Paleohydrology

Paleoclimate

Monsoon

West African

Bosumtwi

XRD

Carbonate

Detrital

Diagenetic

Heinrich Events

Insolation

ITCZ

Obliquity

Precession

Stable Isotope

Forçage harmonique d'écoulements en rotation : vents zonaux, ondes inertielles et instabilités.

Sauret, Alban

01 February 2013

Une grande quantité d'énergie est présente dans les mouvements de rotations propre et orbitale des planètes. Des forçages harmoniques tels que les déformations de marées, la précession ou la libration peuvent en convertir une partie pour générer des écoulements dans les couches fluides d'une planète. Ces écoulements restent largement méconnus même s'ils sont importants pour contraindre des modèles d'intérieur planétaire ou expliquer la présence de champs magnétiques dans certains astres.Dans cette thèse, nous étudions les mécanismes engendrés par ces forçages en combinant une approche théorique, expérimentale et numérique et soulignons la généricité des phénomènes observés. L'étude d'un forçage de libration longitudinale, i.e. des oscillations de la vitesse de rotation d'un astre, montre la présence d'un écoulement zonal généré par des interactions non-linéaires dans les couches visqueuses. Nous étudions ensuite l'instabilité qui apparaît à la paroi pour des amplitudes de libration suffisantes et qui peut transférer de l'énergie vers le volume du fluide. Finalement, une étude expérimentale de forçage de marées dans une sphère met en évidence que l'excitation directe d'ondes inertielles induit un écoulement zonal intense et localisé. Cet écoulement peut se déstabiliser par une instabilité de cisaillement et générer un écoulement turbulent dans tout le volume.Pour finir, nous considérons la pertinence de ces résultats pour des applications géo-/astrophysiques, telles que l'étude des océans internes sous la surface de glace des satellites joviens Ganymède, Encelade et Europe. / A huge amount of energy is stored in the spin and orbital motions of any planet. Harmonic forcings such as libration, precession and tides are capable of conveying a portion of this energy to drive intense three-dimensional flows in liquid layers of planetary bodies. The generated flows remain largely unknown even if they are important to constraint model of planetary interior or to explain the presence of magnetic fields in some astrophysical bodies.In this thesis, we study the mechanisms induced by these forcings by combining theoretical, experimental and numerical approaches and we highlight the genericity of the observed phenomena. The study of a longitudinal libration forcing, corresponding to oscillations of the rotation rate of a planet, shows the presence of a mean zonal flow generated by non-linear interactions in the viscous layers. We then study the instability which appears at the outer boundary at sufficiently large libration amplitude or small Ekman number and which can transfer energy to the bulk of the fluid. Finally, an experimental study of tidal forcing in a sphere shows that the nonlinear self-interaction of excited inertial waves may drive an intense and localised axisymmetric jet, which becomes unstable at low Ekman number following a shear instability, generating space-filling turbulence.To conclude, we consider the relevance of these results to geo-/astrophysical applications, such as the subsurface oceans of the icy satellites Ganymede, Enceladus or Europa.

Écoulements en rotation

Forcage harmonique

Libration

Marées

Précession

Ondes inertielles

Instabilités

Écoulement zonal

Couches d'Ekman

Rotating flow

Harmonic forcing

Libration

Tides

Precession

Inertial waves

Instabilities

Zonal flow

Ekman layers

532

O método da diagonalização filtrada (FDM) e suas aplicações para a Ressonância Magnética / The filter diagonalization method (FDM) and its applications to the Magnetic Resonance

Moraes, Tiago Bueno de

10 June 2011

Este trabalho consiste em realizar um estudo detalhado das vantagens e desvantagens da utilização do FDM (Filter Diagonalization Method) para a análise de dados obtidos pela sequência de Precessão Livre no Estado Estacionário (Steady State Free Precession - SSFP) para aquisição rápida de espectros de Ressonância Magnética Nuclear (RMN). No caso de RMN de baixa resolução, o procedimento de aquisição rápida, SSFP, é uma poderosa ferramenta para melhorar a relação sinal/ruído, apresentando muitas aplicações práticas. Apesar desse sucesso em baixa resolução, a SSFP não é rotineiramente utilizada para aplicações em RMN de alta resolução, provavelmente devido ao (1) artefatos provenientes do truncamento do sinal e (2) as anomalias causadas pela mistura do FID com o eco dos sinais. Existem na literatura inúmeras possíveis técnicas para suprimir este tipo de problemas, porém, nenhuma delas é capaz de realmente eliminar as anomalias geradas devido ao procedimento de aquisição rápida da SSFP. O FDM é um método paramétrico não-linear para fitar sinais no domínio do tempo. Seu objetivo fundamental é resolver o Problema da Inversão Harmônica, HIP, tornando-se robusto e adequado para a análise espectral de sinais no domínio do tempo nos casos onde a Transformada de Fourier falha. Neste trabalho, demonstramos que o FDM pode ser implementado para análises de sinais SSFP, com mais eficiência que os obtidos pelos procedimentos padrões de TF. A temperatura ambiente, espectros de RMN 13C de amostras de brucina, obtidos com tempo entre pulsos de 100ms, podem ser reproduzidos com boa relação sinal/ruído e alta resolução por meio do FDM. A limitação da análise por FDM é mais relevante nos casos de espectros com alta densidade de picos em uma determinada região espectral. Nestes casos, o curto período de observação do sinal na janela do tempo impõe uma série de limitações na resolução obtida pelo FDM. / This work consists in a detailed study of the advantages and disadvantages of the use of the Filter Diagonalization Method, FDM, for data analysis in Steady State Free Precession, SSFP, technique, usually employed to implement fast acquisition of Nuclear Magnetic Resonance, NMR, spectra. In the case of low resolution NMR using fast acquisition procedures, SSFP is a powerful tool to improve signal-to-noise ratio, presenting several important practical applications. Despite its success in the low resolution regime, SSFP is not a routine technique for high resolution applications, so far, mainly because of (1) truncation artifacts and (2) the intrinsic anomalies caused by admixture of free-induction-decay and echo signals. The literature reports many possible techniques to solve such kind of problems, but, none of them is capable to really eliminate the generated spectra anomalies caused by the fast acquisition procedure used in SSFP. FDM is a parametric method for non-liner fitting performed in the time domain. Its main goal is to solve the Harmonic Inversion Problem, HIP, making it robust and suitable for spectral analysis of time signals in the cases where the Fourier Transform, FT, technique fail. In this work we demonstrate that FDM can be used to implement the analysis of the SSFP data, with more efficiency than that achieve by appropriated FT procedures. Room temperature 13C NMR spectra of brucine samples, obtained from pulse sequences with 100 ms repetition time, can be reproduced with good signal-to-noise ratio and high resolution by means of the FDM. The limitation of the FDM analysis is more relevant in the case of spectra with a high density of peaks in a limited spectral frequency region. In these cases, the reduced short observation time window imposes serious limitation to the resolution achieved by the FDM.

Brucina

Brucine

FDM

FDM

Filter diagonalization method

Harmonic inversion

Inversão harmônica

Método da diagonalização filtrada

NMR

Nuclear magnetic resonance

Precessão livre no estado estacionário

Ressonância magnética nuclear

RMN

SSFP

SSFP

Steady state free precession

O método da diagonalização filtrada (FDM) e suas aplicações para a Ressonância Magnética / The filter diagonalization method (FDM) and its applications to the Magnetic Resonance

Tiago Bueno de Moraes

10 June 2011

Este trabalho consiste em realizar um estudo detalhado das vantagens e desvantagens da utilização do FDM (Filter Diagonalization Method) para a análise de dados obtidos pela sequência de Precessão Livre no Estado Estacionário (Steady State Free Precession - SSFP) para aquisição rápida de espectros de Ressonância Magnética Nuclear (RMN). No caso de RMN de baixa resolução, o procedimento de aquisição rápida, SSFP, é uma poderosa ferramenta para melhorar a relação sinal/ruído, apresentando muitas aplicações práticas. Apesar desse sucesso em baixa resolução, a SSFP não é rotineiramente utilizada para aplicações em RMN de alta resolução, provavelmente devido ao (1) artefatos provenientes do truncamento do sinal e (2) as anomalias causadas pela mistura do FID com o eco dos sinais. Existem na literatura inúmeras possíveis técnicas para suprimir este tipo de problemas, porém, nenhuma delas é capaz de realmente eliminar as anomalias geradas devido ao procedimento de aquisição rápida da SSFP. O FDM é um método paramétrico não-linear para fitar sinais no domínio do tempo. Seu objetivo fundamental é resolver o Problema da Inversão Harmônica, HIP, tornando-se robusto e adequado para a análise espectral de sinais no domínio do tempo nos casos onde a Transformada de Fourier falha. Neste trabalho, demonstramos que o FDM pode ser implementado para análises de sinais SSFP, com mais eficiência que os obtidos pelos procedimentos padrões de TF. A temperatura ambiente, espectros de RMN 13C de amostras de brucina, obtidos com tempo entre pulsos de 100ms, podem ser reproduzidos com boa relação sinal/ruído e alta resolução por meio do FDM. A limitação da análise por FDM é mais relevante nos casos de espectros com alta densidade de picos em uma determinada região espectral. Nestes casos, o curto período de observação do sinal na janela do tempo impõe uma série de limitações na resolução obtida pelo FDM. / This work consists in a detailed study of the advantages and disadvantages of the use of the Filter Diagonalization Method, FDM, for data analysis in Steady State Free Precession, SSFP, technique, usually employed to implement fast acquisition of Nuclear Magnetic Resonance, NMR, spectra. In the case of low resolution NMR using fast acquisition procedures, SSFP is a powerful tool to improve signal-to-noise ratio, presenting several important practical applications. Despite its success in the low resolution regime, SSFP is not a routine technique for high resolution applications, so far, mainly because of (1) truncation artifacts and (2) the intrinsic anomalies caused by admixture of free-induction-decay and echo signals. The literature reports many possible techniques to solve such kind of problems, but, none of them is capable to really eliminate the generated spectra anomalies caused by the fast acquisition procedure used in SSFP. FDM is a parametric method for non-liner fitting performed in the time domain. Its main goal is to solve the Harmonic Inversion Problem, HIP, making it robust and suitable for spectral analysis of time signals in the cases where the Fourier Transform, FT, technique fail. In this work we demonstrate that FDM can be used to implement the analysis of the SSFP data, with more efficiency than that achieve by appropriated FT procedures. Room temperature 13C NMR spectra of brucine samples, obtained from pulse sequences with 100 ms repetition time, can be reproduced with good signal-to-noise ratio and high resolution by means of the FDM. The limitation of the FDM analysis is more relevant in the case of spectra with a high density of peaks in a limited spectral frequency region. In these cases, the reduced short observation time window imposes serious limitation to the resolution achieved by the FDM.

Brucina

FDM

Inversão harmônica

Método da diagonalização filtrada

Precessão livre no estado estacionário

Ressonância magnética nuclear

RMN

SSFP

Brucine

FDM

Filter diagonalization method

Harmonic inversion

NMR

Nuclear magnetic resonance

SSFP

Steady state free precession

Strukturní analýza vybraných silicidů přechodných kovů pomocí rentgenové difrakce a dynamického upřesňování dat z elektronové difrakce / Structure analysis of some transition metal silicides using X-ray diffraction and dynamical refinement against electron diffraction data

Antunes Corrêa, Cinthia

January 2017

Title: Structure analysis of some transition metal silicides using X-ray diffraction and dynamical refinement against electron diffraction data Author: Cinthia Antunes Corrˆea Department: Physics of Materials Supervisor: prof. RNDr. Miloš Janeček, CSc., Department of Physics of Materials Abstract: This thesis presents the crystal structure analysis of several transition metal silicides. The crystal structures were studied primarily by precession electron diffraction tomography (PEDT) employing the dynamical refinement, a method recently developed for accurate crystal structure refinement of electron diffraction data. The optimal values of the parameters of the method were proposed based on the comparison between the dynamical refinement of PEDT data and a high- quality reference structure. We present the results of the comparison using a Ni2Si nanowire with the diameter of 15 nm. The average atomic distance between the model obtained by the dynamical refinement on PEDT data and the one by single crystal X-ray diffraction was 0.006 ˚A. Knowing the accuracy and limitations of the method, the crystal structure of Ni3Si2 was redetermined on a nanowire with 35 nm of diameter. The model obtained had an average error in the atomic posi- tions of 0.006 ˚A. These results show that the accuracy achieved by the dynamical...

Rechnerischer Festigkeitsnachweis eines Präzessionsdynamos nach FKM-Richtlinie in ANSYS

Beisitzer, Stephan, Scheffler, Michael, Beitelschmidt, Michael

08 May 2014

Der mit flüssigem Natrium gefüllte Druckbehälter eines Präzessionsexperimentes unterliegt im Betrieb einer Vielzahl an Belastungen. Neben den aus der Rotation und Präzession resultierenden Fliehkräften und dem gyroskopischen Moment müssen ebenfalls die fertigungsbedingten Unwuchten sowie die Fluid-Struktur-Interaktion berücksichtigt werden. Darüber hinaus stellen die bei der Erwärmung bzw. Abkühlung auftretenden thermischen Spannungen eine wesentliche Beanspruchung dar. Es wird ein Algorithmus vorgestellt, der es ermöglicht, alle diese transienten und winkelabhängigen Lasten bei minimalem Rechenaufwand in den Berechnungsprozess einzubeziehen und die für den statischen und zyklischen Festigkeitsnachweis nach FKM-Richtlinie maßgeblichen Beanspruchungen zu identifizieren. Dies ermöglicht die vollflächige Berechnung des Auslastungsgrades in ANSYS Workbench.

info:eu-repo/classification/ddc/629

ddc:629

Fluid-Struktur-Wechselwirkung; ANSYS

Courants de spin et l'effet Hall de spin dans des nanostructures latérales / Spin currents and spin Hall effect in lateral nano-structures

Laczkowski, Piotr

05 October 2012

Cette thèse porte sur l’étude des courants de spin et de l’effet Hall de spin dans des nanostructureslatérales. Des vannes de spin latérales Py/Al, Py/Cu et Py/Au, ont été fabriquées parlithographie électronique, puis optimisées et caractérisées par des mesures de magnéto-transport.Des mesures non locales, de GMR, et d’effet Hanle ont ainsi été enregistrées à 300K et 77K. De l’optimisation des vannes de spin latérales a découlé l’observation de fortes amplitudes designal de spin. De plus, les effets du confinement latéral et vertical de l‘accumulation de spin,par utilisation d’un canal non-magnétique confiné ou de barrières tunnel AlOx, ont été mis enévidence expérimentalement et décrits théoriquement. Des simulations par éléments finis et desanalyses basées sur les modèles de diffusion 1D ont été développées, permettant l’extraction de lapolarisation effective Peff et de la longueur de diffusion de spin lNsf des données expérimentales.Enfin, l’effet Hall de spin dans des matériaux à fort angles de Hall (Pt, aliage d’Au) a étéétudié dans des hétérostructures latérales et par pompage de spin à la résonance ferromagnétique. / This PhD thesis focus on the study of spin currents and of the spin Hall effect in lateralnano-structures. Lateral spin-valves based on Py/Al, Py/Cu and Py/Au, fabricated by meansof electron-beam lithography, have been optimized and characterized using magneto-resistancemeasurements. Non-local, GMR and Hanle effect measurements have been recorded at 300K and77K. The optimization of these lateral spin-valves allowed the observation of high spin signalamplitudes. Lateral and vertical confinement effects on the spin accumulation, by using confinednon-magnetic channel and AlOx tunnel barriers, were evidenced experimentally and describedtheoretically. Finite Elements Method simulations and analyses based on a 1D diffusion modelhave been developed, allowing the extraction from our experimental data of the effective spinpolarization Peff and of the spin diffusion length lNsf .Finally, the spin Hall effect of materials with high spin Hall angles (Pt, Au alloys) has beenstudied using both hybrid lateral nano-structures and spin pumping ferro-magnetic resonance.

Vannes de spins

L`effet Hall de spin

SHE

Pure courant de spins

Jonctions transparantes

Pt

Signal de spin

GMR

NL

L`effet Hanle

Junctions tunneles

Precession de spin

Py/Al, Py/Cu, Py/Au, Ni

Side jump

Aliages d`Au

Lateral spin valves

LSV

Spin Hall effect

Pure spin curents

Transparent junctions

Spin signal

Hanle effect

Tunnel junctions

Spin precession

Side jump

Au alloys

Pt, Py/Al, Py/Cu, Py/Au, Ni

Mesure de déformation et cristallinité à l'échelle nanométrique par diffraction électronique en mode précession / investigation of nano crystalline materials strain and structure using high spatial resolution precession electron diffraction

Vigouroux, Mathieu Pierre

11 May 2015

La diffraction électronique en mode précession (PED) est une méthode récente d’acquisition de clichésde diffraction permettant de minimiser les interactions dynamiques. L’objectif de cette thèse est dedévelopper une méthodologie d’acquisition et de traitement des clichés de diffraction en modeprécession afin de mesurer les champs de déformation en combinant une résolution spatialenanométrique et une sensibilité inférieure à 10-3 typiquement obtenues par d’autres techniques usuellesde microscopie, telle que l’imagerie haute-résolution. Les mesures ont été réalisées sur un JEOL 2010Aéquipé du module de précession Digistar produit par la société Nanomegas.Un système modèle constitué de multicouches Si/SiGe de concentrations connues en Ge a été utilisépour évaluer les performances de la méthodologie développée dans cette thèse. Les résultats indiquentune sensibilité sur la mesure de contraintes qui atteint, au mieux, 1x10-4 et un accord excellent avec lescontraintes simulées par éléments finis. Cette nouvelle méthode a pu ensuite être appliquée sur despuits quantique d’InGaAs et sur des transistors de type Ω−gate.La dernière partie traite d’un nouvel algorithme permettant d’évaluer de manière robuste et rapide lapolycristallinité des matériaux à partir d’une mesure PED. Nous donnons des exemples d’applicationde cette méthode sur divers dispositifs / Precession electron diffraction (PED) is a recent technique used to minimize acquired diffractionpatterns dynamic effects. The primary intention of this PhD work is to improve PED (PrecessionElectron Diffraction) data analysis and treatment methodologies in order to measure the strain at thenanoscale. The strain measurement is intended to reach a 10-3 strain precision as well as usualmicroscopy techniques like high-resolution imaging. To this end, measurements were made with aJEOL 2010A with a Digistar Nanomegas precession module.The approach developed has been used and tested by measuring the strain in a Si/SiGe multilayeredreference sample with a known Ge Content. Strain measurements reached 1x10-4 sensitivity withexcellent finite element strain simulation agreement. This process has been also applied to measure thestrain in microelectronic InGaAs Quantum Well and an "Ω-gate" experimental transistor devices.The second approach developed has been made to provide a robust means of studying electrontransparent nanomaterial polycrystallinity with precession. Examples of applications of this analysismethod are shown on different devices.

Contraintes

Déformations

Polycristallinité

Relaxation

Éléments finis

Lame mince

SiGe

InGaAs

Transistor "Ω-gate"

Mémoire à changement de phase (PRAM)

Strain

Deformation

Polycrystallinity

Precession electron diffraction (PED)

Strain relaxation

Finite element simulation

Transmission Electron Microscopy (MET)

SiGe

InGaAs

"Ω-gate" transistor

Phase-change memory (PRAM).

530