624 research outputs found

    Synthesis, characterisation and corrosion behaviour of simulant Chernobyl nuclear meltdown materials

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    Understanding the physical and chemical properties of materials arising from nuclear meltdowns, such as the Chernobyl and Fukushima accidents, is critical to supporting decommissioning operations and reducing the hazard to personnel and the environment surrounding the stricken reactors. Relatively few samples of meltdown materials are available for study, and their analysis is made challenging due to the radiation hazard associated with handling them. In this study, small-scale batches of low radioactivity (i.e., containing depleted uranium only) simulants for Chernobyl lava-like fuel-containing materials (LFCMs) have been prepared, and were found to closely approximate the microstructure and mineralogy of real LFCM. The addition of excess of ZrO2 to the composition resulted in the first successful synthesis of high uranium–zircon (chernobylite) by crystallisation from a glass melt. Use of these simulant materials allowed further analysis of the thermal characteristics of LFCM and the corrosion kinetics, giving results that are in good agreement with the limited available literature on real samples. It should, therefore, be possible to use these new simulant materials to support decommissioning operations of nuclear reactors post-accident

    Scaling analysis of a divergent prefactor in the metastable lifetime of a square-lattice Ising ferromagnet at low temperatures

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    We examine a square-lattice nearest-neighbor Ising quantum ferromagnet coupled to dd-dimensional phonon baths. Using the density-matrix equation, we calculate the transition rates between configurations, which determines the specific dynamic. Applying the calculated stochastic dynamic in Monte Carlo simulations, we measure the lifetimes of the metastable state. As the magnetic field approaches H/J=2|H|/J=2 at low temperatures, the lifetime prefactor diverges because the transition rates between certain configurations approaches zero under these conditions. Near H/J=2|H|/J=2 and zero temperature, the divergent prefactor shows scaling behavior as a function of the field, temperature, and the dimension of the phonon baths. With proper scaling, the simulation data at different temperatures and for different dimensions of the baths collapse well onto two master curves, one for H/J>2|H|/J>2 and one for H/J<2|H|/J<2.Comment: published versio

    Rotating Resonator-Oscillator Experiments to Test Lorentz Invariance in Electrodynamics

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    In this work we outline the two most commonly used test theories (RMS and SME) for testing Local Lorentz Invariance (LLI) of the photon. Then we develop the general framework of applying these test theories to resonator experiments with an emphasis on rotating experiments in the laboratory. We compare the inherent sensitivity factors of common experiments and propose some new configurations. Finally we apply the test theories to the rotating cryogenic experiment at the University of Western Australia, which recently set new limits in both the RMS and SME frameworks [hep-ph/0506074].Comment: Submitted to Lecture Notes in Physics, 36 pages, minor modifications, updated list of reference

    Stationary solutions for the parity-even sector of the CPT-even and Lorentz-covariance-violating term of the standard model extension

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    In this work, we focus on some properties of the parity-even sector of the CPT-even electrodynamics of the standard model extension. We analyze how the six non-birefringent terms belonging to this sector modify the static and stationary classical solutions of the usual Maxwell theory. We observe that the parity-even terms do not couple the electric and magnetic sectors (at least in the stationary regime). The Green's method is used to obtain solutions for the field strengths E and B at first order in the Lorentz- covariance-violating parameters. Explicit solutions are attained for point-like and spatially extended sources, for which a dipolar expansion is achieved. Finally, it is presented an Earth-based experiment that can lead (in principle) to an upper bound on the anisotropic coefficients as stringent as (κ~e)ij<2.9×1020.(\widetilde{\kappa}_{e-}) ^{ij}<2.9\times10^{-20}.Comment: 8 pages, revtex style, revised published version, to appear in EPJC (2009

    Competition of Mesoscales and Crossover to Tricriticality in Polymer Solutions

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    We show that the approach to asymptotic fluctuation-induced critical behavior in polymer solutions is governed by a competition between a correlation length diverging at the critical point and an additional mesoscopic length-scale, the radius of gyration. Accurate light-scattering experiments on polystyrene solutions in cyclohexane with polymer molecular weights ranging from 200,000 up to 11.4 million clearly demonstrate a crossover between two universal regimes: a regime with Ising asymptotic critical behavior, where the correlation length prevails, and a regime with tricritical theta-point behavior determined by a mesoscopic polymer-chain length.Comment: 4 pages in RevTeX with 4 figure

    Heavy mass expansion, light-by-light scattering and the anomalous magnetic moment of the muon

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    Contributions from light-by-light scattering to (g_\mu-2)/2, the anomalous magnetic moment of the muon, are mediated by the exchange of charged fermions or scalar bosons. Assuming large masses M for the virtual particles and employing the technique of large mass expansion, analytical results are obtained for virtual fermions and scalars in the form of a series in (m_\mu /M)^2. This series is well convergent even for the case M=m_\mu. For virtual fermions, the expansion confirms published analytical formulae. For virtual scalars, the result can be used to evaluate the contribution from charged pions. In this case our result confirms already available numerical evaluations, however, it is significantly more precise.Comment: revtex4, eps figure

    Isolating a light Higgs boson from the di-photon background at the LHC

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    We compute the QCD corrections to the gluon fusion subprocess gg to gamma gamma, which forms an important component of the background to the search for a light Higgs boson at the LHC. We study the dependence of the improved pp to gamma gamma X background calculation on the factorization and renormalization scales, on various choices for photon isolation cuts, and on the rapidities of the photons. We also investigate ways to enhance the statistical significance of the Higgs signal in the di-photon channel.Comment: Additional reference included, 17 pages, 16 figure files, revte

    A Connection between Twistors and Superstring Sigma Models on Coset Superspaces

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    We consider superstring sigma models that are based on coset superspaces G/H in which H arises as the fixed point set of an order-4 automorphism of G. We show by means of twistor theory that the corresponding first-order system, consisting of the Maurer-Cartan equations and the equations of motion, arises from a dimensional reduction of some generalised self-dual Yang-Mills equations in eight dimensions. Such a relationship might help shed light on the explicit construction of solutions to the superstring equations including their hidden symmetry structures and thus on the properties of their gauge theory duals.Comment: v3: 16 pages, typos fixed and minor clarifications adde

    Uma metodologia de avaliação de desempenho de sistemas Peer-To-Peer baseados em tabelas Hash Distribuídas

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    Resumo: As tabelas hash distribuídas (DHTs, distributed hash tables) são redes par-a-par (P2P, peer-to-peer) estruturadas que permitem a inserção de dados indexados por chaves. Elas são compostas por um conjunto de participantes (nodos ou pares) dinâmicos sem o controle de uma autoridade central. As DHTs tornaram-se populares ao longo da última década e hoje possuem diversas aplicações, algumas contendo milhões de nodos espalhados ao redor do planeta. Existe uma grande quantidade de DHTs, as quais podem possuir várias implementações e serem configuradas através de diversos parâmetros. Entretanto, não há um consenso sobre a melhor maneira de avaliar o desempenho de uma DHT, o que dificulta a comparação entre o grande número de DHTs existentes e, consequentemente, a escolha da DHT ideal para cada sistema. Esta dissertação apresenta uma revisão de trabalhos que propõem metodologias de avaliação de desempenho de DHTs e de trabalhos que simplesmente avaliam desempenho de DHTs, sem propor metodologias. Com base nesta revisão uma nova metodologia de avaliação de desempenho de DHTs é proposta. Esta metodologia define um conjunto de testes de desempenho composto por métricas e cargas de trabalho. Estas métricas e cargas de trabalho são baseadas nos pontos em comum encontrados nos diversos trabalhos estudados. A metodologia apresentada define também um modelo para a execução de avaliações de desempenho de DHTs composto por três entidades: mestre, controlador e nodo. Este trabalho apresenta também a ferramenta Dhtperf, que além de implementar a metodologia proposta permite facilmente a definição de novas métricas e cargas de trabalho. Esta ferramenta foi utilizada para realizar avalia- ções de desempenho de diversas DHTs existentes em dois ambientes distintos, validando a metodologia proposta. Os resultados obtidos nas avaliações realizadas são apresentados e discutidos

    Simulation of muon radiography for monitoring CO2 stored in a geological reservoir

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    Current methods of monitoring subsurface CO2, such as repeat seismic surveys, are episodic and require highly skilled personnel to acquire the data. Simulations based on simplified models have previously shown that muon radiography could be automated to continuously monitor CO2 injection and migration, in addition to reducing the overall cost of monitoring. In this paper, we present a simulation of the monitoring of CO2 plume evolution in a geological reservoir using muon radiography. The stratigraphy in the vicinity of a nominal test facility is modelled using geological data, and a numerical fluid flow model is used to describe the time evolution of the CO2 plume. A planar detection region with a surface area of 1000 m2 is considered, at a vertical depth of 776 m below the seabed. We find that 1 year of constant CO2 injection leads to changes in the column density of ≲1%, and that the CO2 plume is already resolvable with an exposure time of less than 50 days
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