1,189 research outputs found
Direct observation of melting in a 2-D superconducting vortex lattice
Topological defects such as dislocations and disclinations are predicted to
determine the twodimensional (2-D) melting transition. In 2-D superconducting
vortex lattices, macroscopic measurements evidence melting close to the
transition to the normal state. However, the direct observation at the scale of
individual vortices of the melting sequence has never been performed. Here we
provide step by step imaging through scanning tunneling spectroscopy of a 2-D
system of vortices up to the melting transition in a focused-ion-beam
nanodeposited W-based superconducting thin film. We show directly the
transition into an isotropic liquid below the superconducting critical
temperature. Before that, we find a hexatic phase, characterized by the
appearance of free dislocations, and a smectic-like phase, possibly originated
through partial disclination unbinding. These results represent a significant
step in the understanding of melting of 2-D systems, with impact across several
research fields, such as liquid crystal molecules, or lipids in membranes.Comment: Submitted to Nature Physic
Universality of Probability Distributions Among Two-Dimensional Turbulent Flows
We study statistical properties of two-dimensional turbulent flows. Three
systems are considered: the Navier-Stokes equation, surface quasi-geostrophic
flow, and a model equation for thermal convection in the Earth's mantle. Direct
numerical simulations are used to determine 1-point fluctuation properties.
Comparative study shows universality of probability density functions (PDFs)
across different types of flow. Especially for the derivatives of the
``advected'' quantity, the shapes of the PDFs are the same for the three flows,
once normalized by the average size of fluctuations. Theoretical models for the
shape of PDFs are briefly discussed.Comment: 5 pages, 7 figure
Caracterização de amido de pinhão modificado com soluções de ácido clorÃdrico 0,1 e 0,2M em presença de etanol e metanol.
O amido de pinhão possui propriedades interessantes, porém pouco foi estudado até o momento. Proveniente do Sul do Brasil, a semente da Araucária angustifolia serve de alimento para diversas culturas da região. Os amidos nativos de diversas fontes botânicas possuem caracterÃsticas de interesse industrial, porém algumas só são adquiridas ou melhoradas mediante a aplicação de agentes que modifiquem as estruturas originais dos grânulos, como ácidos e oxidantes. O presente trabalho teve como objetivo estudar propriedades do amido de pinhão nativo e este modificado, utilizando ácido clorÃdrico 0,1M e 0,2M, em meio etanólico e metanólico. Pelas curvas DSC foi possÃvel determinar as temperaturas ?onset?, de pico e de conclusão do processo de gelatinização das amostras, além de se determinar a entalpia envolvida no processo. Pelas imagens NC-AFM pode-se medir o tamanho dos grânulos dos amidos e a rugosidade dos mesmos antes e após as modificações. Por meio da técnica TG-DTG, foi possÃvel observar um perfil de perda de massa semelhante para todas as amostras, com 3 etapas definidas, sendo a 1ª referente à desidratação da amostra e a 2ª e 3ª referente à decomposição da matéria orgânica à cinzas. Através da análise de propriedade de pasta (RVA) se observou o perfil reológico das amostras, podendo determinar temperatura de pico, viscosidade final e retrogradação.CBRATEC
Análise térmica de diferentes amostras de amido de pinhão (Araucaria angustifolia) de diferentes regiões do sul do Brasil.
As sementes da Araucaria angustifolia, no Brasil conhecidas como ?pinhão? e são uma boa uma fonte de carboidratos complexos (100 gramas de semente contêm 36% de amido). Nesse estudo três amostras de pinhão, obtidas de diferentes regiões foram estudadas. As técnicas termoanalÃticas DSC (em diferentes concentrações de água) e MEV foram usadas para caracterizar as amostras.Edição dos Anais do 7º Simpósio de Análise Térmica, 2015, Bauru
Neutrino nucleus cross sections
We present the results of our calculation which has been performed to study
the nuclear effects in the quasielastic, inelastic and deep inelastic
scattering of neutrinos(antineutrinos) from nuclear targets. These calculations
are done in the local density approximation. We take into account the effect of
Pauli blocking, Fermi motion, Coulomb effect, renormalization of weak
transition strengths in the nuclear medium in the case of the quasielastic
reaction. The inelastic reaction leading to production of pions is calculated
in a - dominance model taking into account the renormalization of
properties in the nuclear medium and the final state interaction
effects of the outgoing pions with the residual nucleus. We discuss the nuclear
effects in the structure function in the deep inelastic
neutrino(antineutrino) reaction using a relativistic framework to describe the
nucleon spectral function in the nucleus.Comment: 9 pages, 6 figures, Presented at 4th DAE-BRNS Workshop on Hadron
Physics, AMU, Aligarh, India, 18-23 Feb 200
Network e-Volution
Modern society is a network society permeated by information technology (IT). As a result of innovations in IT, enormous amounts of information can be communicated to a larger number of recipients faster than ever before. The evolution of networks is heavily influenced by the extensive use of IT, which has enabled co-evolving advanced quantitative and qualitative forms of networking. Although several networks have been formed with the aim to reduce or deal with uncertainty through faster and broader access to information, it is in fact IT that has created new kinds of uncertainty. For instance, although digital information integration in supply chains has made production planning more robust, it has at the same time intensified mutual dependencies, thereby actually increasing the level of uncertainty. The aim of this working paper is to investigate the aspects of evolving networks and uncertainty in networks at the cutting edges of different types of networks and from the perspective of different layers defining these networks
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