The time and energy signals, counter plateau, energy resolution and gas gains performances of a new kind of micro-pattern gaseous detector-Micromegas

In present paper, a new Micromegas detector is developed, and its time and energy signals are obtained in the figure form. The rising time of fast time signal is less than 2 ns due to the very fast collection of avalanche electrons, and the rising time of the energy pulse is about 100 ns, which is corresponding to the total collecting time of the electrons and ions in the avalanche process. The counter plateau, energy resolution and the gas gains of the detector have been compared with other groups' experimental results and the Garfield simulation result.

Simulation of micromegas detector by garfield program

In this paper, a batch file which describes the detailed structure and the corresponding physical process of Micro-Mesh Gaseous Structure (Micromegas) detector, the macro commands and the control structures based on the Garfield program has been developed. And using the Garfield program controlled by this batch file, the detector's gain and spatial resolution have been investigated under different conditions. These results obtained by the simulation program not only exhibit the influences of the mesh and drift voltage, the mixture gas proportion, the distance between the mesh cathode and the printed circuit board readout anode, and the Lines Per Inch of the mesh cathode on the gain and spatial resolution of the detector, but also are very important to optimize the design, shorten the experimental period, and save cost during the detector development. Additionally, they also indicate that the Garfield program is a powerful tool for the Micromegas detector design and optimization.

Structure-change-dependent transmittance of PtOx thin film in super-resolution near-field structure: Diffraction effect analysis

To study working mechanism of super-resolution near-field structure (super-RENS) optical disk from a far-field optics view is very necessary because of the actual far-field writing/readout process in the optical disk system. A Gaussian diffraction model based on Fresnel-Kirchhoff diffraction theory of PtOx-type super-RENS has been set up in this Letter. The relationship between micro-structural deformation (change of bubble structure and refractive index profile) with far-field optical response of PtOx thin film has been studied with it in detail. The simulation results are in good agreement with the experimental results reported in literatures with a designed configuration. These results may provide more quantitative information for better understanding of the working mechanism of metal-oxide-type super-RENS. (c) 2007 Elsevier B.V. All rights reserved.

Micro/Mesoporous Activated Carbons Derived from Polyaniline: Promising Candidates for CO2 Adsorption

A series of activated carbons were prepared by carbonization of polyaniline at different temperatures, using KOH or K2CO3 as activating agent. Pure microporous or micro/mesoporous activated carbons were obtained depending on the preparation conditions. Carbonization temperature has been proven to be a key parameter to define the textural properties of the carbon when using KOH. Low carbonization temperatures (400–650 °C) yield materials with a highly developed micro- and mesoporous structure, whereas high temperatures (800 °C) yield microporous carbons. Some of the materials prepared using KOH exhibit a BET surface area superior to 4000 m2/g, with total pore volume exceeding 2.5 cm3/g, which are among the largest found for activated carbons. On the other hand, microporous materials are obtained when using K2CO3, independently of carbonization temperature. Some of the materials were tested for CO2 capture due to their high microporosity and N content. The adsorption capacity for CO2 at atmospheric pressure and 0 °C achieves a value of ∼7.6 mmol CO2/g, which is among the largest reported in the literature. This study provides guidelines for the design of activated carbons with a proper N/C ratio for CO2 capture at atmospheric pressure.

Modeling of a Heat-Induced Buckling of Plates Using the Mesh-free Method

In the process of engineering design of structural shapes, the flat plate analysis results can be generalized to predict behaviors of complete structural shapes. In this case, the purpose of this project is to analyze a thin flat plate under conductive heat transfer and to simulate the temperature distribution, thermal stresses, total displacements, and buckling deformations. The current approach in these cases has been using the Finite Element Method (FEM), whose basis is the construction of a conforming mesh. In contrast, this project uses the mesh-free Scan Solve Method. This method eliminates the meshing limitation using a non-conforming mesh. I implemented this modeling process developing numerical algorithms and software tools to model thermally induced buckling. In addition, convergence analysis was achieved, and the results were compared with FEM. In conclusion, the results demonstrate that the method gives similar solutions to FEM in quality, but it is computationally less time consuming.

Os mamíferos de médio porte e suas respostas à fatores ambientais, físicos e antrópicos, sobre diferentes perspectivas, no Parque Estadual da Ilha Grande RJ

A variação espacial das características bióticas e abióticas de um ambiente influencia na distribuição de médios mamíferos, sobre diferentes escalas. O Parque Estadual da Ilha Grande (PEIG) possui ambiente bastante heterogêneo e abriga uma mastofauna de médio porte ainda pouco estudada. O objetivo deste estudo é avaliar o efeito das variáveis físicas, do micro-habitat, da estrutura da vegetação e dos impactos antrópicos na comunidade e nas espécies de mamíferos de médio porte do PEIG. O registro das espécies foi por armadilhas fotográficas e as variáveis do ambiente mensuradas por diferentes métodos nas 49 estações de câmeras. Com os resultados desse estudo inferimos que a riqueza de nove espécies de mamíferos de médio porte nativos, corresponde a esperada para um ambiente insular. As espécies mais abundantes foram Dasyprocta leporina, Agouti paca, Dasypus novemcinctus e Didelphis aurita, a mais rara foi o Leopardus wiedii. A composição da mastofauna difere entre as vertentes norte e sul da Ilha Grande (ANOVA, p=0,01). O maior número de indivíduos foi registrado na vertente sul, onde há o efeito da variação da altitude, menor variação do micro-habitat e menor densidade da população humana. Contudo a estrutura da vegetação não difere entre as vertentes e não afeta as espécies mais abundantes. Essas espécies são sensíveis às variáveis físicas. Há impacto da densidade populacional nas vilas sobre a composição e abundância das espécies de médios mamíferos, apesar da caça não ter efeito nas áreas amostradas. Os mamíferos de médio porte são sensíveis às variáveis de maior escala e podem ter sua comunidade estruturada em função do impacto antrópico. A complexidade de habitat e o controle de habitantes no PEIG são importante para manter a comunidade de mamíferos de médio porte.

Investigation of the energy resolution with a RETGEM detector

A novel Micro-pattern gaseous detector (MPGD), thick GEM with electrodes made of a resistive material (RETGEM) is presented. In this paper we mainly investigate the energy resolution of a RETGEM in Ar+CO2 with different gas mixtures. The results indicate that an energy resolution 30% in single and double mode can be obtained. The existence of an optimum energy resolution is discussed.

Thick-microstructures for MPGDs: simulations and experimental studies

Cherenkov Imaging counters require large photosensitive areas, capable of single photon detection, operating at stable high gains under radioactive backgrounds while standing high rates, providing a fast response and a good time resolution, and being insensitive to magnetic fields. The development of photon detectors based in Micro Pattern Gaseous detectors (MPGDs), represent a new generation of gaseous photon detectors. In particular, gaseous detectors based on stacked Thick-Gaseous Electron Multipliers (THGEMs), or THGEM based structures, coupled to a CsI photoconverter coating, seem to fulfil the requirements imposed by Cherenkov imaging counters. This work focus on the study of the THGEM-based detectors response as function of its geometrical parameters and applied voltages and electric fields, aiming a future upgrade of the Cherenkov Imaging counter RICH-1 of the COMPASS experiment at CERN SPS. Further studies to decrease the fraction of ions that reach the photocathode (Ion Back Flow – IBF) to minimize the ageing and maximize the photoelectron extraction are performed. Experimental studies are complemented with simulation results, also perfomed in this work.

Sistema de gestão de unidade judicial

A prestação jurisdicional eficiente e eficaz é uma exigência social e constitucional. Um círculo virtuoso pode ser instaurado pela cobrança social de melhoria dos serviços prestados pelo Poder Judiciário. A resposta a essa exigência é necessária, com a reformulação e revisão de conceitos, estruturas e cultura organizacional. A atuação nessa seara impacta a legitimação do Poder Judiciário, podendo elevá-la tanto mais satisfeitas as expectativas sociais. Os conceitos de gestão e sua implementação devem ser parte das atividades judiciais, desde a alta administração até a gestão da unidade judicial. Há necessidade, portanto, de um sistema de gestão que permeie todas as atividades desenvolvidas. O Tribunal de Justiça do Rio Grande do Sul desde 1995 adotou o Programa Gaúcho de Qualidade e Produtividade (PGQP), através do Plano de Gestão pela Qualidade no Poder Judiciário do Rio Grande do Sul (PGQJ). A recente formulação do Planejamento Estratégico trouxe novas perspectivas, objetivos e desafios. A concreção dos objetivos estratégicos traçados depende do alinhamento das unidades judiciais. Surge aí a importância de um sistema de gestão das unidades judiciais, com elementos e indicadores definidos, permitindo a visualização pela alta administração do andamento da instituição em busca dos objetivos estabelecidos. Alinhada à importância do tema, propõe-se a apresentação dos principais elementos formadores de um sistema de gestão de unidade judicial: direcionamento e alinhamento estratégico; planejamento da microgestão; estrutura organizacional; processos de trabalho; procedimentos operacionais padrão; rotinas cartorárias; gestão de pessoas; treinamento e liderança. O Sistema de Gerenciamento Matricial dos Serviços Judiciários (GMS- JUD), desenvolvido pelo Tribunal de Justiça do Rio Grande do Sul com a consultoria do Instituto Nacional de Desenvolvimento Gerencial (INDG), é apresentado como direcionador de acompanhamento do planejamento traçado pelas unidades judiciais, compondo o sistema de gestão proposto.

Implantação de sistema de gestão na vara da infância e juventude de Porto Velho

Crianças e adolescentes necessitam de proteção integral e prioridade na implementação de seus direitos fundamentais individuais. A demora na tramitação dos processos judiciais constitui um grave problema da Justiça. A eficiência do Poder Judiciário em distribuir justiça está condicionada à prestação jurisdicional rápida, à efetividade do processo. As transformações sociais, econômicas, tecnológicas têm operado muitas mudanças na rotina dos Tribunais. Uma delas é a implantação do sistema de gestão da qualidade nas serventias judiciais. A qualidade da prestação jurisdicional dependerá da gestão imprimida pelo juiz na sua unidade. Diante disso, o presente trabalho destina-se a apresentar uma proposta de sistema de gestão no âmbito da Vara da Infância e Juventude de Porto Velho, Estado de Rondônia, dividido em catorze etapas: foco da organização, direcionadores estratégicos, planejamento da gestão, estrutura organizacional, comunicação, gestão de pessoas, infraestrutura, processos de trabalho, documentos e normas, registros, medição, tratamento de falhas, análise crítica e avaliação dos resultados.

Vocal folds vibrations with a three-dimensional deformable model

In this work a computational method is presented to simulate the movements of vocal folds in three dimensions. The proposed model consists of a mesh free structure where each vertex is connected its neighbor through a group spring-damper. Forced oscillations were studied by time varying surface forces. The preliminary results using this model are similar with the literature and with the experimental stroboscopic observations of larynx. © 2006 IEEE.

Influence of Smoothing on Voxel-Based Mesh Accuracy in Micro-Finite Element

The interest in automatic volume meshing for finite element analysis (FEA) has grown more since the appearance of microfocus CT (μCT), due to its high resolution, which allows for the assessment of mechanical behaviour at a high precision. Nevertheless, the basic meshing approach of generating one hexahedron per voxel produces jagged edges. To prevent this effect, smoothing algorithms have been introduced to enhance the topology of the mesh. However, whether smoothing also improves the accuracy of voxel-based meshes in clinical applications is still under question. There is a trade-off between smoothing and quality of elements in the mesh. Distorted elements may be produced by excessive smoothing and reduce accuracy of the mesh. In the present work, influence of smoothing on the accuracy of voxel-based meshes in micro-FE was assessed. An accurate 3D model of a trabecular structure with known apparent mechanical properties was used as a reference model. Virtual CT scans of this reference model (with resolutions of 16, 32 and 64 μm) were then created and used to build voxel-based meshes of the microarchitecture. Effects of smoothing on the apparent mechanical properties of the voxel-based meshes as compared to the reference model were evaluated. Apparent Young’s moduli of the smooth voxel-based mesh were significantly closer to those of the reference model for the 16 and 32 μm resolutions. Improvements were not significant for the 64 μm, due to loss of trabecular connectivity in the model. This study shows that smoothing offers a real benefit to voxel-based meshes used in micro-FE. It might also broaden voxel-based meshing to other biomechanical domains where it was not used previously due to lack of accuracy. As an example, this work will be used in the framework of the European project ContraCancrum, which aims at providing a patient-specific simulation of tumour development in brain and lungs for oncologists. For this type of clinical application, such a fast, automatic, and accurate generation of the mesh is of great benefit.

Micro-structure differences in kaolinite suspensions

SEM observations of the aqueous suspensions of kaolinite from Birdwood (South Australia) and Georgia (USA) show noticeable differences in number of physical behaviour which has been explained by different microstructure constitution.. Birdwood kaolinite dispersion gels are observed at very low solid loadings in comparison with Georgia KGa-1 kaolinite dispersions which remain fluid at higher solids loading. To explain this behaviour, the specific particle interactions of Birdwood kaolinite, different from interaction in Georgia kaolinite have been proposed. These interactions may be brought about by the presence of nano-bubbles on clay crystal edges and may force clay particles to aggregate by bubble coalescence. This explains the predominance of stair step edge-edge like (EE) contacts in suspension of Birdwood kaolinite. Such EE linked particles build long strings that form a spacious cell structure. Hydrocarbon contamination of colloidal kaolinite particles and low aspect ratio are discussed as possible explanations of this unusual behaviour of Birdwood kaolinite. In Georgia KGa-1 kaolinite dispersions instead of EE contact between platelets displayed in Birdwood kaolinite, most particles have edge to face (EF) contacts building a cardhouse structure. Such an arrangement is much less voluminous in comparison with the Birdwood kaolinite cellular honeycomb structure observed previously in smectite aqueous suspensions. Such structural characteristics of KGa-1 kaolinite particles enable higher solid volume fractions pulps to form before significantly networked gel consistency is attained.

Tooth fracture risk analysis based on a new finite element dental structure models using micro-CT data

The finite element (FE) analysis is an effective method to study the strength and predict the fracture risk of endodontically-treated teeth. This paper presents a rapid method developed to generate a comprehensive tooth FE model using data retrieved from micro-computed tomography (μCT). With this method, the inhomogeneity of material properties of teeth was included into the model without dividing the tooth model into different regions. The material properties of the tooth were assumed to be related to the mineral density. The fracture risk at different tooth portions was assessed for root canal treatments. The micro-CT images of a tooth were processed by a Matlab software programme and the CT numbers were retrieved. The tooth contours were obtained with thresholding segmentation using Amira. The inner and outer surfaces of the tooth were imported into Solidworks and a three-dimensional (3D) tooth model was constructed. An assembly of the tooth model with the periodontal ligament (PDL) layer and surrounding bone was imported into ABAQUS. The material properties of the tooth were calculated from the retrieved CT numbers via ABAQUS user's subroutines. Three root canal geometries (original and two enlargements) were investigated. The proposed method in this study can generate detailed 3D finite element models of a tooth with different root canal enlargements and filling materials, and would be very useful for the assessment of the fracture risk at different tooth portions after root canal treatments.