Formação estelar no complexo de nuvens moleculares em Monoceros / Star Formation in the Molecular Cloud Complex in Monoceros

Gama, Diana Renata Gonçalves

04 May 2012

Comparamos duas nuvens moleculares, Rosette (RMC) e Monoceros R2 (Mon R2), localizadas no Complexo de Monoceros com o objetivo de estudar suas condições físicas relacionadas às primeiras fases da formação estelar. Tratam-se de regiões interessantes por apresentarem características que podem ser confrontadas com a hipótese de formação estelar provocada pela passagem de nuvens de altas velocidades atravessando o plano Galáctico (HVCs). Avaliamos as propriedades dessas nuvens por meio de mapas de vários traçadores da formação estelar com base em diferentes bandas espectrais visando estudar a estrutura de densidade das nuvens, bem como os objetos estelares jovens, em particular as fontes masers de H2O que apresentam características típicas de protoestrelas massivas. Nossa análise permitiu verificar algumas semelhanças entre RMC e Mon R2, mas também nos revelou diferenças interessantes. De uma forma geral há concordância entre AV, CO e emissão de poeira em 100 microns; RMC possui muitos clumps, entretanto poucos aglomerados e nebulosidades exceto uma única região HII principal (NGC2244) enquanto Mon R2 apresenta poucos clumps, vários aglomerados jovens e pequenas nebulosidades; em RMC há mais estrelas massivas, distribuídas uniformemente; Mon R2 tem poucas estrelas B, distribuídas em estruturas filamentárias com maiores índices de AV, do que em RMC; as fontes emissão maser apresentam cores IRAS compatíveis com candidatas a protoestrelas massivas, mas não parecem estar associadas a fontes de raios-X, sugerindo que masers estão relacionados à fase protoestelar, ao passo que fontes-X representam fase Pré-Sequência Principal. Concluímos que a distribuição de objetos e a estrutura das nuvens estão de acordo com as simulações dos modelos de HVCs. Porém, nossos resultados também são compatíveis com modelos alternativos, que simulam a dinâmica da Galáxia, para explicar o cenário de formação estelar no Complexo de Monoceros. / We compare two molecular clouds of the Monoceros Complex in order to study their physical conditions related to the early stages of star formation. The selected clouds, Rosette (RMC) and Monoceros R2 (Mon R2), are interesting regions due to their characteristics that may be confronted with the hypothesis of star formation triggered by high velocity clouds (HVCs) crossing through the Galactic plane. We evaluate the properties of these clouds using maps obtained on the basis of dierent spectral bands to trace the density of the clouds and the young stellar objects, in particular H2O masers that show typical features of massive protostars. This analysis allowed us to verify some similarities between RMC and Mon R2, but also revealed interesting dierences. In a general way there is an agreement between Av, CO and dust emission at 100 microns; RMC has many clumps, a few clusters and a single main nebulosity that is an HII region around NGC2244, while Mon R2 has a few clumps, several young clusters and small nebulosities. In RMC there is a large number of massive stars, uniformly distributed, while Mon R2 has a few B stars, distributed in lamentary structures with levels of Av higher than in RMC; maser sources have IRAS colors compatible with massive protostars candidates, but do not seem to be associated with X-ray sources, suggesting that masers are more related to the protostellar phase, while X-ray sources are related to pre main sequence phase. We conclude that the distribution of objects and the structure of the clouds are in accordance with the simulations of HVC models. However, our results are also compatible with alternative models of the Galaxy dynamics that explain the scenario of star formation in the Monoceros Complex.

Formação Estelar

Interestelar Medium

Meio Interestelar

Molecular Clouds

Nuvens Moleculares

Star Formation

Formação estelar induzida por choques de Supernovas e por Turbulência Magneto-hidrodinâmica / Star formation triggered by Supernovae shocks and magneto-hydrodynamical turbulence

Leão, Márcia Regina Moreira

30 November 2012

Neste trabalho investigamos os efeitos de choques (induzidos por supernovas) e de turbulência magneto-hidrodinâmica no processo de formação estelar. Primeiramente, considerando o impacto de um remanescente de supernova (RSN) com uma nuvem neutra magnetizada derivamos analiticamente um conjunto de condições através das quais estas interações podem levar à formação de estruturas densas capazes de tornarem-se gravitacionalmente instáveis e formar estrelas. Usando estas condições, construímos diagramas do raio do RSN, $R_$, versus a densidade inicial da nuvem, $n_c$, os quais delimitam um domínio no espaço paramétrico onde a formação estelar é permitida. Estes diagramas foram testados através de simulações numéricas magneto-hidrodinâmicas tridimensionais (3D MHD) onde seguimos a evolução espaço-temporal da interação de um RSN com uma nuvem auto-gravitante. Verificamos que a análise numérica está de acordo com os resultados previstos pelos diagramas. Observamos ainda que a presença de um campo magnético fraco, $\\sim 1 \\; \\mu$G, inicialmente homogêneo e perpendicular à velocidade de impacto do RSN, resulta em uma pequena diminuição da região permitida para formação estelar nos diagramas quando comparado a diagramas para nuvens não magnetizadas. Já um campo magnético mais intenso ($\\sim 10\\;\\mu$G) causa um encolhimento significativo nestas, como esperado. Embora derivados de considerações analíticas simples estes diagramas fornecem uma ferramenta útil para identificar locais onde a formação estelar pode ter sido induzida pelo impacto de uma onda de choque de SN. Aplicações a algumas regiões de nossa Galáxia (como a Grande Concha de CO na direção de Escorpião e a Nuvem Periférica 2 na direção da constelação de Cassiopeia) mostram que a formação estelar nestes locais pode ter sido induzida por uma onda de choque de um RSN em passado recente, quando se consideram valores específicos para as condições iniciais das nuvens impactadas.%, para valores específicos de raio do RSN e uma faixa de densidades iniciais possíveis para estas nuvens. Avaliamos também a eficiência de formação estelar efetiva para estas interações e encontramos que esta é geralmente menor do que os valores observados para a nossa Galáxia (sfe $\\sim$ 0.01$-$0.3). Este resultado é consistente com outros trabalhos da literatura e também sugere que este mecanismo, embora poderoso para induzir a formação de estruturas, turbulência supersônica e eventualmente formação estelar local, não parece ser suficiente para induzir a formação estelar global em galáxia normais, nem mesmo quando o campo magnético é desprezado. Além do estudo acima, exploramos ainda a formação estelar considerando a injeção prévia de turbulência (por um mecanismo físico arbitrário) em nuvens magnetizadas. Para uma nuvem ou glóbulo de nuvem molecular formar estrelas deve haver transporte de fluxo magnético das regiões internas mais densas para as regiões externas menos densas da nuvem, de outra forma o colapso poderá ser impedido pela força magnética. Consideramos aqui um novo mecanismo. Reconexão magnética rápida, a qual ocorre em presença de turbulência, pode induzir um processo de difusão eficiente dos campos magnéticos. Neste trabalho investigamos esse processo por meio de simulações numéricas 3D MHD e suas implicações para a formação estelar, estendendo um estudo prévio realizado para nuvens de simetria cilíndrica e sem auto-gravidade (Santos-Lima et al. 2010). Aqui consideramos nuvens mais realistas com potenciais gravitacionais esféricos (devido a estrelas embebidas) e também levando em conta os efeitos da auto-gravidade do gás. Determinamos, pela primeira vez, quais as condições em que o transporte do campo magnético devido à difusão por reconexão turbulenta leva uma nuvem inicialmente subcrítica a tornar-se super-crítica e capaz de colapsar para formar estrelas. Nossos resultados indicam que a formação de um núcleo supercrítico é resultado de uma complexa interação entre gravidade, auto-gravidade, intensidade do campo magnético e turbulência aproximadamente trans-sônica e trans-Alfvénica. Em particular, a auto-gravidade favorece a difusão do campo magnético por reconexão turbulenta e, como resultado, seu desacoplamento do gás colapsante torna-se mais eficiente do que quando apenas um campo gravitacional externo está presente. Demonstramos que a difusão por reconexão turbulenta é capaz de remover fluxo magnético da maior parte das nuvens investigadas, porém somente uma minoria desenvolve núcleos aproximadamente críticos ou super-críticos, o que é consistente com as observações. A formação destes é restrita ao seguinte intervalo de condições iniciais para as nuvens: razão pressão térmica-pressão magnética, $\\beta \\sim 1$ a $3$, razões entre a energia turbulenta e a energia magnética $E_/E_\\sim 1.62$ a $2.96$, e densidades $50 < n < 140$ cm$^$, quando consideramos massas estelares M$_{\\star}\\sim 25$M$_{\\odot}$, implicando uma massa total da nuvem (gás + estrelas) M$_\\lesssim 120$M$_{\\odot}$. / In this work, we have investigated the effects of shocks (induced by supernovae) and magnetohydrodynamical turbulence in the process of star formation. Considering first, the impact of a supernova remnant (SNR) with a neutral magnetized cloud we derived analytically a set of conditions through which these interactions can lead to the formation of dense structures able to become gravitationally unstable and form stars. Using these conditions, we have built diagrams of the SNR radius, $R_{SNR}$, versus the initial cloud density, $n_c$, that constrain a domain in the parameter space where star formation is allowed. These diagrams have been also tested by means of three-dimensional magneto-hydrodynamical (3D MHD) numerical simulations where the space-time evolution of a SNR interacting with a self-gravitating cloud is followed. We find that the numerical analysis is in agreement with the results predicted by the diagrams. We have also found that the effects of a weak homogeneous magnetic field ($\\sim 1 \\; \\mu$G) approximately perpendicular to the impact velocity of the SNR results only a small decrease of the allowed zone for star formation in the diagrams when compared with the diagrams with non-magnetized clouds. A larger magnetic field ($\\sim 10\\;\\mu$G) on the other hand, causes a significant shrinking of the star formation zone, as one should expect. Although derived from simple analytical considerations, these diagrams provide a useful tool for identifying sites where star formation could be triggered by the impact of a SN blast wave. Applications of them to a few regions of our own Galaxy (e.g., the large CO shell in the direction of Scorpious, and the Edge Cloud 2 in the direction of the Cassiopeia constellation) have revealed that star formation in those sites could have been triggered by shock waves from SNRs in a recent past, when considering specific values of the SNR radius and the initial conditions in the neutral clouds. We have also evaluated the effective star formation efficiency for this sort of interaction and found that it is generally smaller than the observed values in our Galaxy (sfe $\\sim$ 0.01$-$0.3). This result is consistent with previous work in the literature and also suggests that the mechanism presently investigated, though very powerful to drive structure formation, supersonic turbulence and eventually, local star formation, does not seem to be sufficient to drive $global$ star formation in normal star forming galaxies, not even when the magnetic field is neglected. Besides the study above, we have also explored star formation considering a priori injection of turbulence (by an arbitrary physical mechanism) in magnetized clouds. For a molecular cloud clump to form stars some transport of magnetic flux may be required from the denser, inner regions to the outer regions of the cloud, otherwise this can prevent the gravitational collapse. We have considered here a new mechanism. Fast magnetic reconnection which takes place in the presence of turbulence can induce a process of reconnection diffusion of the magnetic field. In this work, we have investigated this process by means of 3D MHD numerical simulations considering its implications on star formation. We have extended a previous study which considered clouds with cylindrical geometry and no self-gravity (Santos-Lima et al. 2010). Here, we considered more realistic clouds with spherical gravitational potentials (from embedded stars) and also accounted for the effects of the gas self-gravity. We demonstrated that reconnection diffusion takes place. We have also, for the first time, determined the conditions under which reconnection diffusion is efficient enough to make an initially subcritical cloud clump to become supercritical and collapse. Our results indicate that the formation of a supercritical core is regulated by a complex interplay between gravity, self-gravity, magnetic field strength and nearly transonic and trans-Alfvénic turbulence. In particular, self-gravity helps reconnection diffusion and, as a result, the magnetic field decoupling from the collapsing gas becomes more efficient than in the case when only an external gravitational field is present. We have demonstrated that reconnection diffusion is able to remove magnetic flux from most of the collapsing clumps analysed, but only a few of them develop nearly critical or supercritical cores, which is consistent with the observations. Their formation is restricted to a range of initial conditions for the clouds as follows: thermal to magnetic pressure ratios $\\beta \\sim$ 1 to 3, turbulent to magnetic energy ratios $E_{turb}/E_{mag}\\sim 1.62$ to $2.96$, and densities $50 < n < 140$ cm$^{-3}$, when considering stellar masses M$_{\\star}\\sim 25$M$_{\\odot}$, implying total (gas+stellar) masses M$_{tot} \\lesssim 120$M$_{\\odot}$.

Campos Magnéticos

difusão

Formação Estelar

Magnetic fields diffusion

Remanescentes de Supernovas

Star formation

Supernova remnants

turbulence

Turbulência

Um estudo teórico da evolução temporal das características polarimétricas de estrelas Be / A Theoretical Study of the Polarimetric Characteristics of Be Stars

Mota, Bruno Correia

02 July 2013

Estrelas Be são reconhecidas pela sua rápida rotação e pulsação não radial. São as únicas estrelas da Sequência Principal que apresentam discos circunstelares, os quais são formados por meio de processos ainda não completamente compreendidos. A modelagem das forças que atuam neste sistema conduz a previsões teóricas sobre a estrutura do disco que podem ser comparadas com dados observacionais. Podemos estudar as propriedades físicas dos discos de estrelas Be pelo efeito que a luz estelar sofre ao passar por eles, por exemplo, modelando a transferência radiativa. Neste ponto, a polarização surge como uma ferramenta muito útil para a investigação destes discos, permitindo a determinação de quantidades físicas importantes do sistema, como a densidade numérica de partículas e o ângulo de inclinação. Uma variabilidade intrigante observada em estrelas Be é a transição aperiódica entre uma fase B normal (sem disco) e uma fase Be (com disco). Estudos de monitoramento recentes encontraram, a partir da análise da polarização intrínseca decorrente da transição entre estas fases, uma relação significante entre a mudança da polarização através do salto de Balmer versus a polarização na banda V, fazendo surgir uma estrutura em loop como função do tempo, no assim denominado Diagrama Cor-Polarização. Neste trabalho, apresentamos uma análise do Diagrama Cor-Polarização por meio de modelos diversos. Fazemos uso do Disco de Decréscimo Viscoso que é o paradigma atual para explicar a formação e evolução dos discos de estrelas Be. Com isso, visamos determinar como a polarimetria pode contribuir para a compreensão dos mecanismos fundamentais envolvidos no processo de formação e dissipação do disco. / Be stars are recognized by their rapid rotation and non-radial pulsation. They are the only stars in the Main Sequence that have circumstellar disks that are formed by processes not yet fully understood. The modeling of the forces acting on this system leads to theoretical predictions about the structure of the disk that can be compared to observational data. We can study physical the properties of Be disks by modeling how stellar light is reprocessed by them. This requires solving the detailed radiative transfer problem involved. In this point, the study of polarization arise as a useful tool to investigate these disks, allowing for the determination of important physical quantities of the system, such as the particle number density and inclination angle. An intriguing variability observed in Be stars is the aperiodic transition between a B normal phase (without disk) to a Be phase (with disk). Recent monitoring studies found, from the analysis of the intrinsic polarization arising of the transition between these phases, a significant relation between the polarization change through the Balmer jump versus the V-Band polarization, giving rise to a loop structure as a function of time, in the so-called Color-Polarization Diagram. This work presents an analysis of the Color-Polarization Diagram by several models. We make use of the Viscous Decretion Disk Model, which assumes the existence of some injection mechanism of material at keplerian velocities in the disk base, where the turbulent viscosity acts carrying angular momentum from de inner parts to the outer regions. With this, we aimed to extend our knowledge about the fundamental mechanisms involved in the formation and dissipation processes of the disk.

Be Star

Circumstellar Disks

Discos Circunstelares

Estrelas Be

Polarimetria

Polarimetry

Variabilidade

Variability

A origem do carbono no universo - insights a partir de observações de estrelas pobres em metais nas nuvens de Magalhães / The origin of carbon in the Universe - insights from observations of metal-poor stars in Magellanic Clouds

Almeida, Tiago Mendes de

30 October 2009

Neste projeto de pesquisa planeja-se obter indícios da correlação entre o conteúdo metálico estelar deduzido para a Via Láctea e os indíces metálicos obtidos para as Nuvens de Magalhães. O ponto de apoio para tal comparação é que cada encontro deixará importantes traços na eficiência de formação dos membros do tripleto. À medida que os encontros dependem da história dinâmica, suas ``impressões digitais\'\' deixadas nos conteúdos estelares colocam importantes limitações na história dinâmica e vice-versa. Para tanto, são utilizados os dados espectroscópicos já obtidos com o telescópio Magellan Clay, para uma amostra contendo 28 estrelas ricas em carbono encontradas nas Nuvens de Magalhães. A quantidade de carbono bem como a existência ou não de binaridade nas estrelas da amostra são indícios das possíveis fontes da sobreabundância do carbono. A caracterização da amostra é essencial para o estudo da relação entre duas populações estelares aparentemente distintas: a de estrelas de carbono e a de estrelas pobres em metais enriquecidas em carbono. Para tanto, são utilizados catálogos de espectros assim como critérios fotométricos. A descoberta de alguma relação entre as duas populações pode ajudar a esclarecer o problema dos processos de enriquecimento de carbono, notado nas atmosferas estelares. A futura determinação dos parâmetros físicos das estrelas que compõem a amostra pode revelar detalhes sobre a história de formação estelar dos objetos das Nuvens e, portanto, vincular a evolução dessas duas galáxias-satélites à história da Via Láctea. / This project searches for signs of correlation between metallic stellar content, available for the Milky Way, and the metallicities indices obtained for the Magellanic Clouds. This comparison is supported by the traces on the formation of these three galaxies, that should have been left by each triplet members encounter. Since these crosses depend on the dynamical history, their fingerprints left by stellar content can estabilish constraints to the Galactic dynamical history. Spectroscopic data for a sample of carbon stars, obtained on the Magellanic Telescope, are used in this work. The amount of carbon, as the existence or not of binary stars in this sample, indicates possible sources of this element. The determination of sample properties is essential for studying the constraints between two stellar populations that are apparently distincts: carbon stars and carbon enhanced metal-poor stars. To do this, spectral catalogues and photometric criteria are used. Finding the correlations between both populations will bring some light to the unknown carbon enrichment processes that occured at the stellar atmospheres. Variability, emission lines, and binarity are studied for the sample. Stellar parameters are discussed, although there is no method applicable to this sample. By estimating the physical parameters of the stars presented in this sample and by analysing their carbon abundances, one can provide hints of the star formation history of objects in the Magellanic Clouds and therefore constraint the evolution of these satellite-galaxies to the Milky Way.

AGB

AGB

carbon

carbono

estrelas pobres em metais

Magellanic Clouds

metal-poor star

Nuvens de Magalhães

Hardware/Software prototyping of a miniaturized star tracker system for a nanosatellite platform / Prototypage matériel et logiciel d'un senseur stellaire embarqué pour les nanosatellites

Khorev, Andrey

13 December 2016

Depuis les tous premiers jours de l'ère spatiale, les satellites artificiels ont été considérés comme un outil pour la résolution de problèmes scientifiques et pratiques, notamment dans l'astronomie, l'observation de la Terre et les télécommunications. Traditionnellement, les gros satellites artificiels, avec une masse allant de plusieurs centaines de kilogrammes jusqu'à plusieurs tonnes, ont été utilisés pour ces besoins. Un élément clef pour permettre le succès de ces missions spatiales est un contrôle précis de l'attitude du satellite. Afin d'assurer la haute précision de pointage, un système de contrôle d'attitude et d'orbite (SCAO) repose sur les données fournies par un instrument optoélectronique appelé un senseur stellaire (ou Star Tracker, ST). L'utilisation des étoiles éloignées comme points de repère permet la détermination de l'attitude du satellite avec une précision de l'ordre de la seconde d'arc. Beaucoup de travaux sur la miniaturisation des sous-systèmes des satellites artificiels ont été entrepris au court des vingt dernières années. Cela a permis à l'industrie et aux passionnés de développer et construire des satellites de quelques kilogrammes pouvant accomplir de véritables missions spatiales. Centaines de ces satellites appelés « nano-satellites » sont lancé chaque année et certains parmi eux peut être considéré comme un replacement des gros satellites. Cependant, dû à de grosses contraintes de masse et de volume définis par les standards na no-satellites, tel que lU-3U CubeSat Design Specification, l'intégration de senseur stellaire dans ces nano-satellites n'était jusqu'à présent pas possible, limitant l'application de ces plateformes. Dans ce travail, senseur stellaire est considéré comme un système composé par un module caméra et un module de traitement d'image. les solutions possibles pour chaque module sont analysées séparément dans un contexte de miniaturisation de ST par modélisation et simulation. Elles sont ensuite évaluées ensemble comme les prototypes fonctionnels dans un installation hardware-in-the-loop (Hll). Cette recherche aborde plusieurs problèmes liés à la miniaturisation d'optique de caméra et du capteur d'image à pixel actif (active pixel sensor, APS), tels que la sensibilité réduite à la lumière des étoiles et l'incertitude de position des centroïdes à cause de la distorsions et l'aberrations chromatique d'optique miniaturisée. L'évaluation dans l'installation Hll se concentre autour des performances du module de traitement et plus particulièrement sur les performances du logiciel ST dans le mode d'opération « perdu dans l'espace» ("Iost-in-space", LIS). Une contribution originale de cette recherche est un algorithme de reconnaissance d'étoiles (StarID) nommé « RING-O » développé et breveté par l'auteur. Par rapport aux autres algorithmes existants, RING-O peut facilement être adapté et ajusté à différentes caméras et plateformes de traitement. Des implémentations logicielles d'algorithme ont été effectuées sur deux prototypes, l'un basé sur smartphone et l'autre basé sur une plateforme Xilinx Zynq, afin de réaliser une analyse des goulets et d'extraire les performances du système. Optimisé pour les plateformes multi-coeurs, RING-O garantit les délais d'acquisition initiale d'attitude comparable et souvent plus petits que les délais d'acquisition déclaré par les autres développeurs de senseur stellaires européens. / From the early days of the space age, satellites were considered as a solution for many scientific and practical tasks, notably astronomy, Earth observation and telecommunication. Traditionally and to the present day, mostly large satellites with a mass from several hundred kilograms to several tons are used for these purposes. The key success factor of such space missions is a fine control of satellite’s attitude. To ensure high pointing accuracy, satellite’s attitude determination and control subsystem (ADCS) relies on precise three-dimensional attitude data provided by an opto-electronic instrument called star tracker (ST). The use of stars as reference objects allows to determine the satellite’s attitude in real time with an arc-second precision.A significant work on miniaturization of satellite subsystems carried out in the past twenty years, allows us today to build a complete satellite with a mass of only a few kilograms. An increasing number of successful nano- and picosatellite missions demonstrates constantly improving capabilities of modern miniaturized satellite platforms. However, until recently, integration of a star tracker into a nanosatellite was not possible because of a large size of the device and relatively high power consumption, and that limited possible applications of the nanosatellites. In attempt to change the situation, in the last five years about a dozen of miniature star tracker prototypes, suitable for nanosatellite platforms, were proposed by various developers. Some were successfully tested in space, yet most prototypes, including the tiniest ones, are still at the development stage.A modern star tracker is a system, that can be represented as two modules, a digital camera module and a processing module. Use of a compact camera lens and a small-size image sensor allows to significantly reduce overall mass and size of the device, and at the same time, may cause significant image quality deterioration, due to increased distortion, uncompensated spherical and chromatic aberration, lower signal-to-noise ratio (SNR) and overall lower light sensitivity of the camera module. Thus, embedded software of the processing module, responsible for pre-processing, star identification and attitude calculation, should take into account the limitations imposed by the miniaturization of the camera module. At the same time, hardware architecture of the processing module should have the capacity to perform necessary correction of the digital image in real time, and to ensure stability and expected performance of the star identification and attitude calculation routines.The goal of hardware and software prototyping of a miniature star tracker system, carried out in this work, is to evaluate various design solutions, that could be brought into the camera or into the processing module, in order to help the miniaturization of the system. Another goal is to analyze the impact of every hardware and software component on the overall performance of a miniaturized star tracker system. Among the list of star tracker characteristics, the initial attitude estimation time and the attitude output rate became the focus of the research. Current work addresses possible performance bottlenecks, that may appear on any step of star tracker operation, from capturing starlight to calculation of components of the attitude quaternion, and proposes an original solution to speed-up the star identification routine.

Senseur stellaire

Nano-Satellite

Contrôle d'attitude

Star tracker

Nano-Satellite

Attitude control

A 230 GHz focal plane array using a wide IF bandwidth SIS receiver

Garrett, John

January 2018

Superconductor-Insulator-Superconductor (SIS) mixers offer the best noise properties of any heterodyne mixing technique at millimetre wavelengths. In astronomy, they are used for sensitive spectroscopy, which is vital for understanding the properties of the cold interstellar medium, including regions of star formation activity. Modern SIS receivers have noise properties that are &Tilde;3 times the quantum limit, and it is now becoming increasingly difficult to lower the noise properties any further. In this thesis, I investigate two techniques that extend the capability of SIS receivers. The first technique is extending the instantaneous bandwidth of the receivers, i.e., the intermediate frequency bandwidth (IFBW). For spectral line sources, wide IFBW expands the survey depth to allow multiple emission lines to be observed simultaneously. Here, I present a new SIS mixer device at 230 GHz. The planar circuit was minimised to reduce any parasitic capacitances that may limit the IFBW. Experimentally, the device provides excellent noise temperatures down to 36 K and an IFBW extending from approximately 0-11 GHz. Simulation software was developed to better understand the performance of this device, and it suggests that the IFBW can be extended to higher frequencies if the IF measurement chain is upgraded. The second technique that I investigate is increasing the number of receivers in the focal plane of the receiver, i.e., adding more pixels. There are many challenges involved in this task including how to fit multiple receivers into a small space, how to properly cool the receiver, and how to deliver the local-oscillator signal. Here, I present a new 1 × 4 focal plane array. This array is acting as a demonstrator for a new array architecture that can be expanded into many more pixels in the future. It uses cascaded waveguide power splitters to divide the local-oscillator signal, and then waveguide directional couplers to combine the LO with the astronomical signals. Finally, I present CO(J=1&rarr;0) measurements from 34 galaxies in the 5MUSES survey. These measurements trace the amount of cold molecular gas present in these galaxies. By comparing these measurements to other metrics that trace star formation activity (e.g., infrared luminosity), I was able to form empirical relationships between the observed quantities. I also combined these results with other star formation studies from nearby and high redshift galaxies to form scaling relationships spanning a large fraction of cosmic time.

Visual Hierarchical Dimension Reduction

Yang, Jing

09 January 2002

Traditional visualization techniques for multidimensional data sets, such as parallel coordinates, star glyphs, and scatterplot matrices, do not scale well to high dimensional data sets. A common approach to solve this problem is dimensionality reduction. Existing dimensionality reduction techniques, such as Principal Component Analysis, Multidimensional Scaling, and Self Organizing Maps, have serious drawbacks in that the generated low dimensional subspace has no intuitive meaning to users. In addition, little user interaction is allowed in those highly automatic processes. In this thesis, we propose a new methodology to dimensionality reduction that combines automation and user interaction for the generation of meaningful subspaces, called the visual hierarchical dimension reduction (VHDR) framework. Firstly, VHDR groups all dimensions of a data set into a dimension hierarchy. This hierarchy is then visualized using a radial space-filling hierarchy visualization tool called Sunburst. Thus users are allowed to interactively explore and modify the dimension hierarchy, and select clusters at different levels of detail for the data display. VHDR then assigns a representative dimension to each dimension cluster selected by the users. Finally, VHDR maps the high-dimensional data set into the subspace composed of these representative dimensions and displays the projected subspace. To accomplish the latter, we have designed several extensions to existing popular multidimensional display techniques, such as parallel coordinates, star glyphs, and scatterplot matrices. These displays have been enhanced to express semantics of the selected subspace, such as the context of the dimensions and dissimilarity among the individual dimensions in a cluster. We have implemented all these features and incorporated them into the XmdvTool software package, which will be released as XmdvTool Version 6.0. Lastly, we developed two case studies to show how we apply VHDR to visualize and interactively explore a high dimensional data set.

hierarchy

sunburst

dimension reduction

high dimensional data set

multidimensional visualization

parallel coordinates

scatterplot matrices

star glyphs

Tomography of evolved star atmospheres

Kravchenko, Kateryna

06 March 2019

Cool giant and supergiant stars are among the largest and most luminous stars in the Universe and, therefore, dominate the integrated light of their host galaxies. These stars were extensively studied during last few decades, however their relevant properties like photometric variability and mass loss are still poorly constrained. Understanding of these properties is crucial in the context of a broad range of astrophysical questions including chemical enrichment of the Universe, supernova progenitors, and the extragalactic distance scale. Atmospheres of giant and supergiant stars are characterized by complex dynamics due to different interacting processes, such as convection, pulsation, formation of molecules and dust, and the development of mass loss. Current 1D/3D dynamical model atmospeheres are able to simulate these processes and produce a good agreement with the observed spectral features of evolved stars. However, the models lack constraints and need to be confronted to observables. Dynamical processes in stellar atmospheres impact the formation of spectral lines producing their asymmetries and Doppler shifts. Thus, by studying the line-profile variations on spatial and temporal scales it is possible to reconstruct atmospheric motions in evolved stars. As will be shown in this thesis, a tomographic method is an ideal technique for this purpose. The tomographic method is based on construction and cross-correlation of spectral templates (masks) with observed or synthetic stellar spectra in order to recover velocity fields at different optical depths in the stellar atmosphere.The first part of the thesis further improves the original implementation of the tomographic method. This improvement involves the computation of the contribution function in order to correctly determine an optical depth of formation of spectral lines. The tomographic method is, then, fully validated by applying it to a stellar convection simulation of a red supergiant star and correctly recovering its velocity field throughout the atmosphere. The second part of the thesis applies the tomographic method to the red supergiant star μ Cep in order to constrain its atmospheric motions and relate them to photometric variability. A phase lag (hysteresis) between the effective temperature and the radial velocity variations is revealed with timescales of a few hundred days, similar to photometric ones. A comparison to a stellar convection simulation of a red supergiant star indicates that hysteresis loops are linked to the stochastic shocks generated and shaped by the underlying large-scale convection and may be responsible for photometric variations in μ Cep. The third part of the thesis applies the tomographic method to spectro-interferometric observations of the Mira-type star S Ori. The uniform-disk angular diameters measured at wavelengths contributing to the tomographic masks increase with decrease of an optical depth probed by the masks. This validates the capability of the tomographic method to probe distinct geometrical depths in the stellar atmosphere. The last part of the thesis applies the tomograhic method to the Mira-type star RY Cep and compares the results to those obtained for μ Cep in this thesis. The comparison reveals differences in their behavior in the temperature-velocity plane pointing to the posibility to differentiate between Mira-type and red supergiant stars from their spectroscopic signatures. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Astrophysique

Star atmospheres

Red supergiant stars

Asymptotic giant branch stars

spectroscopy

interferometry

radiative transfer

A cultura da convergência e os fãs de Star Wars : um estudo sobre o conselho Jedi RS

Silveira, Stefanie Carlan da

January 2010

A cultura da convergência abarca a questão tecnológica do fluxo de conteúdos, ocorrendo através de múltiplos suportes midiáticos e as questões de mudança de comportamento do público, que se apropria das redes digitais para buscar de diferentes experiências de entretenimento e de informação. Os sujeitos buscam um produto midiático que não se finde na sua própria exibição, mas sim proponha conteúdos que vão além de um único dispositivo de distribuição e necessitem do engajamento do público para que aconteçam efetivamente. Os fãs são personagens centrais da mudança na forma de operar da mídia de massa por serem pioneiros na adaptação às novas tecnologias de comunicação e informação e nos processos de produção e consumo participativos. A partir disso, esta pesquisa busca um olhar sobre as interações que fazem parte do comportamento dos fãs, tanto nas relações entre eles quanto com a indústria midiática. Para tanto, estudam-se os fãs de Star Wars, mais especificamente, os membros do Conselho Jedi do Rio Grande do Sul (CJRS), a fim de que através de um objeto empírico, consolidado e permanente se possa investigar o comportamento deste grupo no contexto de cultura da convergência, onde as interações entre eles e com o mercado de mídia são transformadas. / The convergence culture includes the technological issue of the content flow going through multiple media and the issues of changes in public behavior which appropriates itself of the digital networks seeking for different experiences of entertainment and information. The individuals look for a media product that doesn‟t finish itself in its own exhibition, but propose content that go beyond a single distribution device and require the engagement of the audience to actually happen. The fans are central characters in the change of mass media operating way because they are pioneers in adapting the new technologies of communication and information and in participatory processes of production and consumption. From this, this research seeks a look at the interactions that are part of the behavior of fans, both in relations between them and with the media industry. To this end, the Star Wars fans are studied, more specifically, the members of the Jedi Council of Rio Grande do Sul (CJRS), so that through a consolidated and permanent empirical object, it became possible to investigate the behavior of this group in the convergence culture context where the interactions between them and the media market are changed.

Cultura da convergência

Fãs

Cibercultura

Guerra nas Estrelas (Filme)

Fans

Convergence culture

Star wars

Jedi Council

Polinização na caramboleira (Averrhoa carambola L.) por Apis mellifera L. : requerimentos da cultura e eficiência do polinizador

SILVA JÚNIOR, Cláudio Gomes da

29 July 2016

Submitted by Mario BC (mario@bc.ufrpe.br) on 2017-02-13T13:27:55Z No. of bitstreams: 1 Claudio Gomes da Silva Junior.pdf: 2548092 bytes, checksum: ea7fc75a90f48e944d80c7574fdf4292 (MD5) / Made available in DSpace on 2017-02-13T13:27:55Z (GMT). No. of bitstreams: 1 Claudio Gomes da Silva Junior.pdf: 2548092 bytes, checksum: ea7fc75a90f48e944d80c7574fdf4292 (MD5) Previous issue date: 2016-07-29 / This study aimed to evaluate the floral biology, the pollinators, pollination requirements and pollinating efficiency of Apis mellifera L. bee in star fruit tree. The survey was conducted between the months of December 2015 to March 2016 in an orchard belonging to the Agronomic Institute of Pernambuco, municipality of Brejão, Agreste Pernambucano. The results showed that the flower anthesis took place from 07:00, but only to 08:00 all the flowers were open. The flower carambola presented longevity just one day, and its receptive stigma throughout the period that the flower remained open. six families insects were observed, but there was a predominance of bee species Trigona sp. and Apis mellifera. These bees foraged during the day, and Trigona sp. looking mainly resin in floral peduncle and A. mellifera exclusively for nectar. Honeybees spent on average 4,26 seconds to collect nectar and Trigona sp. spending an average of 24,64 seconds on each flower to collect the same resource. Regarding pollination requirements, studies have shown that there was initial fruit set in all forms of employed pollinations (free, restricted to paper, restricted with tulle and with a single visit of A. mellifera). However, a visit by A. mellifera, avenged (p<0,05) more fruit than other pollinations tests. Although several taxa of insects visit the flowers of star fruit, A. mellifera promoted greater (p<0,05) fruit set that all employees pollination treatments, presenting behavior efficient pollinator of that culture, to mitigate the pollination deficit and maximize fruit production. / Objetivou-se avaliar a biologia floral, os visitantes florais, os requerimentos de polinização e a eficiência polinizadora da abelha Apis mellifera L. em caramboleiras. A pesquisa foi conduzida entre os meses de dezembro de 2015 à março de 2016 em pomar, pertencente ao Instituto Agronômico de Pernambuco, município de Brejão, Agreste Pernambucano. Os resultados mostraram que a antese das flores aconteceu a partir das 07:00h, porém somente às 08:00h todas as flores se encontravam abertas. A flor da carambola apresentou longevidade de apenas um dia, tendo o seu estigma receptivo durante todo o período que a flor permaneceu aberta. Foram observados insetos de seis famílias, porém houve predomínio das espécies de abelhas Trigona sp. e Apis mellifera. Essas abelhas forragearam durante o dia, sendo Trigona sp. em busca principalmente de resina no pedúnculo floral e a A. mellifera exclusivamente por néctar. As abelhas A. mellifera gastaram em média 4,26 segundos para coletar néctar e a Trigona sp. gastava uma média de 24,64 segundos em cada flor para coletar o mesmo recurso. Em relação aos requerimentos de polinização, os estudos mostraram que houve vingamento inicial de frutos em todas as formas de polinizações empregadas (livre, restrita com papel, restrita com filó e com uma única de visita de A. mellifera). No entanto, uma visita pela A. mellifera, vingou significadamente (p<0,05) mais frutos que as demais polinizações empregadas. Apesar de vários táxons de insetos visitarem as flores da caramboleira, A. mellifera promoveu maior (p<0,05) vingamento de frutos que todos os tratamentos de polinização empregados, apresentando comportamento de eficiente polinizador dessa cultura, visando mitigar o déficit de polinização e maximizar a produção de frutos.

Polinização

Abelha

Caramboleira

Biologia floral

Pollination

Bee

Floral biology

Star fruit

ZOOTECNIA::PRODUCAO ANIMAL