976 resultados para Villarosa, Carlo Antonio de Rosa di, marchese, 1762-1847.
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Kinetic Monte Carlo (KMC) is a widely used technique to simulate the evolution of radiation damage inside solids. Despite de fact that this technique was developed several decades ago, there is not an established and easy to access simulating tool for researchers interested in this field, unlike in the case of molecular dynamics or density functional theory calculations. In fact, scientists must develop their own tools or use unmaintained ones in order to perform these types of simulations. To fulfil this need, we have developed MMonCa, the Modular Monte Carlo simulator. MMonCa has been developed using professional C++ programming techniques and has been built on top of an interpreted language to allow having a powerful yet flexible, robust but customizable and easy to access modern simulator. Both non lattice and Lattice KMC modules have been developed. We will present in this conference, for the first time, the MMonCa simulator. Along with other (more detailed) contributions in this meeting, the versatility of MMonCa to study a number of problems in different materials (particularly, Fe and W) subject to a wide range of conditions will be shown. Regarding KMC simulations, we have studied neutron-generated cascade evolution in Fe (as a model material). Starting with a Frenkel pair distribution we have followed the defect evolution up to 450 K. Comparison with previous simulations and experiments shows excellent agreement. Furthermore, we have studied a more complex system (He-irradiated W:C) using a previous parametrization [1]. He-irradiation at 4 K followed by isochronal annealing steps up to 500 K has been simulated with MMonCa. The He energy was 400 eV or 3 keV. In the first case, no damage is associated to the He implantation, whereas in the second one, a significant Frenkel pair concentration (evolving into complex clusters) is associated to the He ions. We have been able to explain He desorption both in the absence and in the presence of Frenkel pairs and we have also applied MMonCa to high He doses and fluxes at elevated temperatures. He migration and trapping dominate the kinetics of He desorption. These processes will be discussed and compared to experimental results. [1] C.S. Becquart et al. J. Nucl. Mater. 403 (2010) 75
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Using the Monte Carlo method the behavior of a system of true hard cylinders has been studied. Values of the length-to-breadth ratio L/D and packing fraction η have been chosen similar to those of real nematic liquid crystals. Results include radial distribution function g(r), structure factor S(k), and orientational order parameter M. These results lead to the conclusion that the hard cylinder model may be a useful reference for real mesomorphic phases.
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In this work, we introduce the Object Kinetic Monte Carlo (OKMC) simulator MMonCa and simulate the defect evolution in three different materials. We start by explaining the theory of OKMC and showing some details of how such theory is implemented by creating generic structures and algorithms in the objects that we want to simulate. Then we successfully reproduce simulated results for defect evolution in iron, silicon and tungsten using our simulator and compare with available experimental data and similar simulations. The comparisons validate MMonCa showing that it is powerful and flexible enough to be customized and used to study the damage evolution of defects in a wide range of solid materials.
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Sign. : *-***4, ****2, A-Z4, 2A-2Q, 2R2
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En el curso 2012-2013 el Laboratorio de Crítica centró su atención en el Rolex Learning Center de l´Ecole Polytechnique Fédérale de Lausanne en Suiza, obra de indudable interés del estudio japonés SANAA que constituye en sí misma un auténtico experimento y, consecuentemente, un objeto de observación apropiado para el estudio dentro del Laboratorio. En octubre de 2012 se realizó un viaje para visitar el edificio y, posteriormente, se realizaron por parte de los alumnos, ejercicios críticos y experimentos de los que en esta publicación aparece una muestra representativa. También se recogen en este libro, publicado gracias al apoyo de la ETSAM dentro de su colección de Texto Académicos, algunas aportaciones externas como el escrito y los dibujos del arquitecto Javier Aguilera, así como otros textos de antiguos alumnos del Laboratorio como Rosa Ballester, Berta González Salinero o Daniel Sacristán que, además han contribuido decisivamente en la edición. Se incluye, asimismo, un artículo de Eider Holgado, alumna de doctorado que está realizando su tesis, dentro del G.I. ARKRIT.
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Las il. son cal
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Inicial grab. xil
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This work analysed the feasibility of using a fast, customized Monte Carlo (MC) method to perform accurate computation of dose distributions during pre- and intraplanning of intraoperative electron radiation therapy (IOERT) procedures. The MC method that was implemented, which has been integrated into a specific innovative simulation and planning tool, is able to simulate the fate of thousands of particles per second, and it was the aim of this work to determine the level of interactivity that could be achieved. The planning workflow enabled calibration of the imaging and treatment equipment, as well as manipulation of the surgical frame and insertion of the protection shields around the organs at risk and other beam modifiers. In this way, the multidisciplinary team involved in IOERT has all the tools necessary to perform complex MC dosage simulations adapted to their equipment in an efficient and transparent way. To assess the accuracy and reliability of this MC technique, dose distributions for a monoenergetic source were compared with those obtained using a general-purpose software package used widely in medical physics applications. Once accuracy of the underlying simulator was confirmed, a clinical accelerator was modelled and experimental measurements in water were conducted. A comparison was made with the output from the simulator to identify the conditions under which accurate dose estimations could be obtained in less than 3 min, which is the threshold imposed to allow for interactive use of the tool in treatment planning. Finally, a clinically relevant scenario, namely early-stage breast cancer treatment, was simulated with pre- and intraoperative volumes to verify that it was feasible to use the MC tool intraoperatively and to adjust dose delivery based on the simulation output, without compromising accuracy. The workflow provided a satisfactory model of the treatment head and the imaging system, enabling proper configuration of the treatment planning system and providing good accuracy in the dosage simulation.
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Datos del pie de imp. tomados de la Fe de erratas
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Para representar en el Teatro de Valencia en 1841
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A presente tese, de título: Religião e Sertão, é uma tentativa de ler, a partir do viés do diálogo entre religião, teologia e literatura, e do método da correspondência de Antonio Carlos de Melo Magalhães, a obra do literato mineiro João Guimarães Rosa. Para tanto, a tese segue por meio de três grandes correspondências encontradas não só na obra rosiana como também, de forma comum e constante, em quase todas as pesquisas que seguem a interface teologia e literatura: palavra, vida e sagrado. Vida como processo de existência a travessia do homem humana, palavra como meio de manifestação dessa existência e sagrado como forma de explicação para essa existência. Desse modo, os quatro capítulos da tese seguem essas correspondências: o primeiro, com uma discussão sobre o próprio diálogo: religião, teologia e literatura, seguido dos outros três, como veredas de leitura: vida, palavra e sagrado.(AU)
