All-sky polarization imager deployment at Mauna Loa Observatory, Hawaii

Dahlberg, Andrew Richard.

January 2010

Thesis (MS)--Montana State University--Bozeman, 2010. / Typescript. Chairperson, Graduate Committee: Joseph A. Shaw. Includes bibliographical references (leaves 74-77).

Scattering of negative pions on protons at 310 MeV recoil-nucleon polarization and phase-shift analysis /

Vik, Olav T.

January 1962

Thesis (Ph.D.)--University of California, Berkeley, 1962. / "UC-34 Physics" -t.p. "TID-4500 (17th Ed.)" -t.p. Includes bibliographical references (p. 65-66).

Complete determination of polarization for a high-energy deuteron beam

Button, Janice.

January 1959

Thesis--University of California, Berkeley, 1959. / "Physics and Mathematics" -t.p. Includes bibliographical references (p. 125-126).

Time-domain Terahertz Spectroscopy of water

Torcedo, Jojit Camama.

January 2010

Thesis (Ph. D.)--University of California, Riverside, 2010. / Includes abstract. Title from first page of PDF file (viewed May 18, 2010). Includes bibliographical references. Issued in print and online. Available via ProQuest Digital Dissertations.

Differential cross section and polarization of the reaction (pi)⁺P(right arrow)K⁺(Sigma)⁺ from 2.75 to 14 GeV/c

Fischer, Glen Charles,

January 1970

Thesis (Ph. D.)--University of Wisconsin--Madison, 1970. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliography.

3D localization in digital holography from scattered light from micrometer-sized particles

Öhman, Johan

January 2018

When a particle is illuminated by a beam of light it will scatter and redistribute the light in all directions. How it scatters depends on the size, shape and refractive index of the particle. Additionally, it depends on the wavelength and polarization of the illuminating beam. The direction and distance to the observer relative the particle also needs to be considered.  A digital holographic imaging system is used to collect parts of the scattered light from micrometer-sized particles. By utilizing digital holography a three-dimensional reconstruction of the imaged scene is possible. Traditionally, particles are localized based on the intensity in the holographic reconstructions. In this licentiate thesis, the phase response of the scattered light is investigated and utilized. An alternative method for locating spherical particles is presented. The method locate particles based on a simple feature of a propagating wave, namely the fact that the wavefront curvature changes from converging to diverging at the axial location of the particle. The wavefront curvature is estimated using two different methods. The first method estimates the lateral phase-gradients using a finite-difference method. The second method uses a three-dimensional parametric model based on a Chebyshev polynomial expansion. The methods are demonstrated using both simulations and experimental measurements. The simulations are based on the Lorenz-Mie scattering theory for spherical particles and are combined with an imaging system model. Experiments are performed using an off-axis polarization sensitive digital holographic system with a coherent Nd:YAG laser. Measurements of stationary particles are made to validate and evaluate the proposed method. It is found that these methods estimate the true axial position and does not have the offset that is associated with intensity-based methods. Additionally, it is possible to exclude noise that shows up as false particles since noise does not have the same phase response as a real particle. The second method, that uses a parametric model, also improves the standard deviation in the positioning.

Digital Holography

Polarization

Particle Scattering

Metrology

Applied Mechanics

Teknisk mekanik

[en] OPTICAL SYNTHESIS OF DUAL REFLECTORS / [pt] SÍNTESE ÓTICA DE SISTEMAS DE DUPLOS REFLETORES

JOAO CRISOSTOMO WEYL ALBUQUERQUE DA COSTA

09 October 2006

[pt] O bloqueio da abertura de um refletor pelo alimentador, estais ou subrefletor causam significante deteriorização de um feixe colimado de microondas: pela redução do ganho, pelos aumentos da polarização cruzada e de níveis de lóbulos laterais. Conseqüentemente, o emprego de estruturas de duplos refletores offset torna-se atraente pois permite a eliminação dos efeitos de bloqueio e, através de ajuste dos refletores, redução de polarização cruzada. Várias configurações foram consideradas, utilizando confocal cônicas e refletores modelados. Alternativamente, substancial redução nos custos pode ser obtida pelo emprego de um refletor principal com simetria axial. Utilizando os princípios da Ótica Geométrica, o subrefletor corretor de fase é modelado para obter fase uniforme sobre a abertura. Neste trabalho apresentamos uma extensão do estudo sobre o desempenho de duplos refletores que empregam um esferóide como refletor principal. Alterações nesta configuração são introduzidos resultando em geometrias mais compactas e eficientes. Para avaliar o desempenho e o diagrama de radiação, submete-se os sistemas projetados a uma análise difrativa baseada na ótica Física. / [en] The aperture blockage by feed, stalls, and subreflector generally causes degradation of gain and raising of crosspolarisation and sidelobe levels. Consequently, to attend recent recommendations for sidelobe envelope, the design of earth station antennas has employed offset-fed configurations to eliminate blocking effects. Several dual offset designs have been presented employing sections of confocal conic or shaped reflectors. A possible disadvantage of these designs is that their main reflector does not show circular symmetry and thus connot be manufactured by spinning. The use of spherical main reflector is particularly interesting from the point of view of fabrication process for mass production. This work extends the investigation of the design of dual offset antennas with a spherical main reflector. The phase correcting subreflector is shaped using Geometrical Optics meanings. A diffractive analysis based on Physical Optics approximations is used to predict the radiation pattern, the efficiency and the crosspolaristion.

[pt] POLARIZACAO

[en] POLARIZATION

[pt] GEOMETRIA

[en] GEOMETRY

[pt] OPTICA

[en] OPTICAL

CORROSION OF STEEL IN MSE WALLS DUE TO DEICERS AND BACKFILL AGGREGATES

Tajhya, Dipesh

01 May 2017

Mechanically Stabilized Earth (MSE) wall is a civil structure that has been used for various purposes e.g., supporting bridges, residential or commercial buildings, roadways, railroads etc. In general, MSE wall uses either metal strip, bar or geosynthetics materials as reinforcement. Roger et al. (2010) mentioned that an approximately 57% of the MSE wall constructed in U.S. utilize steel strips as the resources of reinforcement. The usage of metal steel strips is followed by usage of steel bar mats (24%) and geosynthetics grids (18%). Even though MSE walls are designed for a service life of 75 to 100 years, early complication has often been reported. Corrosion of the reinforced steel has been the major cause that afflicts the long-term performance of these walls. The deicing salts used on pavements to melt down snow is one of the major cause of corrosion of these reinforced steels. The aggressiveness of deicers in terms of corrosion of these reinforced steel is studied through the potentiodynamic polarization technique at various concentrations. This study aims to determine the corrosion behavior on galvanized steel and bare steel in presence of individual deicing salt or deicers e.g., sodium chloride, calcium chloride, magnesium chloride and potassium acetate at various (i.e., 0.25, 0.50 and 1.0 M) concentration. Subsequently, the surface morphology was analyzed by using Scanning Electron Microscopy (SEM) and the mineralogical composition was observed through X-Ray Diffraction (XRD). In addition, the corrosivity of two backfill aggregates, natural aggregate and recycled concrete aggregate, was compared. The result shows that the corrosion effect of deicers on reinforced steel depends on its chemical composition and concentration. The SEM imaging showed the presence of micro cracks on the surface of galvanized steel, resulting in pitting corrosion rather than general surficial corrosion. Comparing the corrosion rate of these deicers, the aggressiveness of these deicers on galvanized steel can be arranged in the following order: sodium chloride > calcium chloride > magnesium chloride > potassium acetate. Although sodium chloride was most aggressive for both the steel, the aggressiveness of these deicers on bare steel was different from that of galvanized steel and can be arranged in following order: sodium chloride > magnesium chloride > calcium chloride > potassium acetate. The pH and electrical resistivity of the natural and recycled aggregates were compared with standard provided by American Association of State Highway and Transportation Officials (AASHTO) and found to be non-corrosive. The corrosion rate of both the aggregates on galvanized and bare steel were inappreciable. While analyzing the corrosiveness of these two aggregates, recycled concrete aggregate was observed to be more aggressive than the natural aggregate.

Backfill aggregate

Corrosion

Deicers

MSE Wall

Potentiodynamic Polarization

Steel

O papel da polarização de macrófagos no transtorno bipolar

Ascoli, Bruna Maria

January 2017

A disfunção do sistema imune inato e a neuroinflamação tem sido cada vez mais reconhecidas como elementos importantes na fisiopatologia do transtorno bipolar (TB). Como componentes essenciais da imunidade inata, os macrófagos tem múltiplas funções tanto na inibição como na promoção da proliferação celular e na reparação tecidual, sendo a diversidade e a plasticidade características marcantes deste tipo celular. A polarização M1 clássica e a polarização alternativa M2 de macrófagos representam dois extremos de um estado dinâmico na mudança da ativação dos mesmos. Os macrófagos do tipo M1 sintetizam citocinas próinflamatórias que inibem a proliferação de células circundantes e danificam tecidos, enquanto os macrófagos do fenótipo M2 liberam citocinas antiinflamatórias que podem promover reparo tecidual. Um desequilíbrio da polarização M1-M2 dos macrófagos é frequentemente associado a várias doenças ou condições inflamatórias. O objetivo desta tese foi, além de revisar a importância da inflamação sistêmica na modulação da resposta inflamatória da microglia/macrófagos e consequentemente seu potencial envolvimento na fisiopatologia do TB, avaliar o perfil de polarização M1/M2 em cultura de macrófagos de sujeitos com TB comparados a indivíduos saudáveis. Monócitos foram isolados a partir de sangue periférico de dez sujeitos com TB e dez indivíduos saudáveis e diferenciados em macrófagos através da adição de fator estimulante de colônia de macrófagos (MCSF) ao meio de cultura. Para induzir a polarização M1 ou M2, as culturas foram incubadas com IFN-y e LPS ou IL-4 respectivamente. Após a incubação, recolheram-se os sobrenadantes e mediram-se as citocinas (IL-1β, IL-6, IL-10 e TNF-α) por ensaio multiplex. A secreção das citocinas IL-1β, TNF-α e IL-6 características do protótipo M1 e citocinas IL-10 do protótipo M2 foram semelhantes entre os pacientes e os controles. Utilizou-se a razão TNF-α / IL-10 do fenótipo M1 para refletir o estado inflamatório dos participantes. Não foi observada diferença entre os grupos (p=0,627). Duas hipóteses diferentes poderiam explicar esses resultados: todos os pacientes incluídos neste estudo representam um estágio inicial da doença como evidenciado pela pontuação FAST total inferior a 11. De acordo com o modelo de estadiamento em TB, as alterações biológicas (incluindo a inflamação) parecem estar relacionadas com os episódios de humor e progressão da doença. Juntamente com estudos anteriores, os nossos dados sugerem que os pacientes nos estágios iniciais ainda preservam a função do sistema imunológico sem apresentar um desequilíbrio a favor do perfil de macrófagos M1 como tem sido observado em pacientes no estágio tardio, destacando a relevância da intervenção precoce no TB. Ainda, estes pacientes estavam em tratamento com estabilizadores de humor e é plausível especular que esses fármacos exerçam efeitos sobre a polarização de macrófagos. Estudos futuros em pacientes drug-free são essenciais para avaliar esta questão. Em conclusão, nossos achados sugerem que os pacientes TB não apresentam desequilíbrio na polarização dos macrófagos em favor do fenótipo pró-inflamatório M1. O fato de todos estes pacientes estarem em estágios iniciais da doença reforça os efeitos protetores da intervenção precoce no TB na prevenção de alterações do sistema imune e, consequentemente, na progressão da doença. / Innate immune system dysfunction and neuroinflammation have been recognized as important elements in the pathophysiology of bipolar disorder (BD). As essential players of innate immunity, macrophages have multiple roles in inhibition and promotion of cell proliferation and tissue repair. The classical M1 polarization and the M2 alternative polarization of macrophages represent two extremes of a dynamic state in their change of activation. M1 macrophages synthesize proinflammatory cytokines that inhibit the proliferation of surrounding cells and damage tissues, whereas macrophages of the M2 phenotype release antiinflammatory cytokines that may promote tissue repair. An imbalance of the M1-M2 polarization of macrophages is often associated with various diseases or inflammatory conditions. The aim of this thesis was to review the importance of systemic inflammation in modulating the inflammatory response of microglia/ macrophages and consequently their potential involvement in the pathophysiology of BD, and also evaluate the M1/M2 polarization profile in macrophages of patients with BD compared to healthy individuals. Blood monocytes were obtained from ten BD patients and ten healthy controls. These cells were activated/polarized into the M1 (IFNγ + LPS) or M2(IL-4) phenotype. Supernatants were collected and the cytokines (IL-1β, IL-6, IL-10 and TNF-α) were measured by multiplex assay. Secretion of the IL- 1β, TNF-α, IL-6 and IL-10 were similar between patients and controls. The TNF-α/IL- 10 ratio of the M1 phenotype was used to reflect the inflammatory state of the participants. There was no difference between groups (p = 0.627). Two hypotheses could explain these results: all patients included in this study represent an early stage of disease as evidenced by the FAST score below 11. According to the BD staging model, biological changes (including inflammation) appear to be related to mood episodes and disease progression. Together with previous studies, our data suggest that patients in early stages of BD still preserve immune system function without presenting an imbalance in favor of M1 macrophages as has been observed in latestage patients, highlighting the relevance of early intervention. Moreover, these patients were under treatment with mood stabilizers and it is plausible to speculate that these drugs have effects on macrophage polarization. Future studies in drug-free patients are essential to assess this issue. In conclusion, our findings suggest that BD patients do not present imbalance in macrophage polarization in favor of the M1 proinflammatory phenotype. The fact that all these patients are in the early stages of the disease reinforces the protective effects of early intervention in BD to prevent changes in the immune system and, consequently, prevent the progression of the disease.

Transtorno bipolar

Macrófagos

Microglia

Bipolar disorder

Inflammation

Macrophage polarization

Développements de systèmes micro-nanofluidiques appliqués à la filtration et la préconcentration / Development of nanofluidic components applied to filtration and Concentration.

Aizel, Koceila

09 December 2013

Les recherches menées au cours de cette thèse constituent une première étape de développement de méthodes expérimentales de concentration de nanoparticules à l'aide de composants micro-nanofluidiques. L'objectif principal est donc d'explorer différentes architectures de systèmes micro-nanofluidiques où l'étape de concentration est effectuée par effet d'exclusion stérique et/ou ionique sous l'application d'un champ de pression et/ou électrique. Une attention toute particulière a été portée sur les méthodes de caractérisation, comprenant notamment les méthodes de particule Tracking Micro-PIV et de microscopie par fluorescence pour mesurer la répartition en nanoparticules et quantifier les facteurs de concentration. Le premier axe concerne la concentration de nanoparticules dans des architectures de type « Bypass ». Dans le cas de la filtration stérique, une modélisation par méthode de différence finie permet de prédire l'apparition d'une zone localisée où la concentration est d'une centaine à un millier de fois plus élevée que la concentration initiale après une heure d'opération. Des composants micro-nano fluidique en silicium ont été réalisés afin de mener une étude paramétrique. En accord avec le modèle proposé, cette étude montre que le nombre de Peclet est le paramètre déterminent dans le choix du design et des conditions d'expérimentations optimums. Concernant la préconcentration par effet électrocinétique, les expérimentations ont essentiellement consisté à explorer le phénomène d'ICP (Ion Concentration Polarisation) et d'appliquer cette technique pour la concentration de nanoparticules. Enfin le type de géométries « Bypass » a été testé sous différentes conditions. Ainsi, le couplage avantageux de phénomènes électro-hydrodynamiques tel que le « streaming potentiel » permet d'ouvrir la voie à des systèmes de préconcentration à actionnements manuels, rapides et très simples d'utilisation. Le deuxième axe d'étude est quant à lui dédié à la conception et l'utilisation de configuration micro-nanofluidique plus originales. Y sont notamment étudiés des systèmes à configuration radial offrant une meilleure stabilité lors des étapes de préconcentration électrocinétiques. Sur la base des performances et limitations des différents systèmes micro-nanofluidiques réalisés, le dernier chapitre est une mise en perspective des champs d'applications potentiels, notamment pour les laboratoires sur puces. / The researches conducted during this thesis consist in a first step for the development of experimental methods applied to the concentration of nanoparticles using micro-nanofluidic devices. The main aim is to explore different system architectures where the préconcentration step are achieved using steric and/or ion exclusion under the influence of a pressure and/or electric field. A special attention is directed toward the characterization methods including Micro-Particle Image Velocimetry micro-PIV and fluorescent microscopy to measure the nanoparticles repartition and to quantify the concentration folds. The first axis deals with the preconcentration of nanoparticles within « Bypass » like architectures. Concerning the steric filtration, a theoretical model using finite element method allows to predict the rising of a located preconcentration zone where the local concentration is enhanced 1000 fold as compared to the initial concentration after 1h of concentration operation. Silicon Micro-nanofluidic devices were fabricated in order to conduct a parametric study. According to the proposed theoretical model, this study shows that the Peclet number is a key parameter to choose the optimal design and experimental conditions. Concerning the electrokinetic preconcentration, the experiments mainly consisted in exploring the ICP phenomenon (Ion Concentration Polarization) and in using this technic to preconcentrate nanoparticles. Finally the Bypass geometry was tested in many conditions. Thus, the advantageous coupling of electro-hydrodynamic phenomena such as the so called “streaming potential” opens new ways to fast, simple and manual preconcentration systems suitable for LOC applications. The second axis is dedicated to the conception and utilization of original micro-nanofluidic configurations. Will also be studied radial micro-nanofluidic devices offering better stability during electrokinetic preconcentration. On the basis of the performances and limitations inherent to each systems, the last chapter will focus on the potential applications relative to LOC.

Nanofluidique

Filtration

Electro-preconcentration ionique

Nanofluidic

Filtration

Ion Concentration Polarization