348 resultados para Flûte à bec
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Ponencia leída en el Foro de Comunicaciones IkasArt II (BEC Barakaldo, 2010.06.18)
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Ponencia leída en el Foro de Comunicaciones IkasArt II (BEC Barakaldo, 2010.06.17)
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Ponencia leída en el Foro de Comunicaciones IkasArt II (BEC Barakaldo, 2010.06.17)
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Ponencia leída en el Foro de Comunicaciones IkasArt II (BEC Barakaldo, 2010.06.17)
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Ponencia leída en el Foro de Comunicaciones IkasArt II (BEC Barakaldo, 2010.06.18)
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Ponencia leída en el Foro de Comunicaciones IkasArt II (BEC Barakaldo, 2010.06.18)
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15 p.
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We have observed strong scattering of a probe light by dilute Bose-Einstein condensate (BEC) Rb-87 gas in a tight magnetic trap. The scattering light forms fringes at the image plane. It is found that we can infer the real size of the condensation and the number of the atoms by modelling the imaging system. We present a quantitative calculation of light scattering by the condensed atoms. The calculation shows that the experimental results agree well with the prediction of the generalized diffraction theory, and thus we can directly observe the phase transition of BEC in a tight trap.
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129 p.
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Staphylococcus aureus resistente à meticilina (MRSA) é um importante patógeno pulmonar em pacientes com fibrose cística (FC). Caracteriza-se pela resistência a todos os β-lactâmicos, devido a presença do elemento genético móvel SCCmec o qual abriga o gene mecA. Além disso, é reconhecido por vários fatores de virulência o qual destacamos a toxina Panton-Valentine Leukocidin (PVL), uma citolisina formadora de poros na célula hospedeira, e por apresentar diversos clones epidêmicos envolvidos em surtos hospitalares. O objetivo desse estudo foi caracterizar a epidemiologia de MRSA, isolados de pacientes com FC referente a dois centros de referência no Rio de Janeiro a partir da aplicação de técnicas fenotípicas e genotípicas. Um total de 57 amostras de MRSA foi submetido ao teste de difusão em ágar para 11 antimicrobianos a fim de avaliar perfil de resistência, com aplicação da técnica da PCR foi tipificado o SCCmec e investigado a presença do gene LukS-PV responsável pela codificação da toxina PVL com intuito de estabelecer uma melhor caracterização epidemiológica dos clones identificados pela técnica do MLST (Multilocus Sequence Typing). Os antimicrobianos não β-lactâmicos apresentaram um percentual de resistência abaixo de 50%, em que destacamos a eritromicina com o maior percentual 45,6% e quanto ao perfil de resistência 24,6% foram multirresistentes. Com exceção do SCCmec II, os outros tipos foram encontrados (I, III, IV e V) com os respectivos percentuais de 22,8% (n=13), 7,1% (n=4), 61,4% (n=35) e 3,5% (n=2) e apenas 5,3% (n=3) das amostras não foram caracterizadas, não há dados da prevalência do SCCmec IV. Vinte (35,1%) amostras apresentaram produtos de amplificação compatível com a presença do gene lukS, aproximadamente metade dessas amostras (55%) estava correlacionada ao SCCmec IV. Com a análise do MLST, obtivemos os STs 1 (n=1, 1,7%), 5 (n=28, 49,1%), 30 (n=11, 19,3%), 72 (n=1, 1,7%), 398 (n=1, 1,7%), 1635 (n=7, 12,3%), 1661 (n=2, 3,5%), 239 (n=5, 8,8%), e ainda identificamos um novo ST (2732) presente em 1 amostra. A partir de uma análise associativa entre o MLST e o SCCmec foi possível observar a presença de linhagens características de clones epidêmicos, como o UK-EMRSA-3 (ST5, SCCmec I), USA 800/pediátrico (ST5, SCCmec IV), Oceania Southwest Pacific Clone - OSPC (ST30, SCCmec IV) e Brazilian Epidemic Clone - BEC (ST239, SCCmec III). Em conclusão este estudo é o primeiro a caracterizar linhagens epidêmicas de MRSA nos centros de atendimento a pacientes com FC no Rio de Janeiro, sendo necessário um monitoramento constante a fim de evitar a disseminação desses clones.
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In this thesis, two different sets of experiments are described. The first is an exploration of the microscopic superfluidity of dilute gaseous Bose- Einstein condensates. The second set of experiments were performed using transported condensates in a new BEC apparatus. Superfluidity was probed by moving impurities through a trapped condensate. The impurities were created using an optical Raman transition, which transferred a small fraction of the atoms into an untrapped hyperfine state. A dramatic reduction in the collisions between the moving impurities and the condensate was observed when the velocity of the impurities was close to the speed of sound of the condensate. This reduction was attributed to the superfluid properties of a BEC. In addition, we observed an increase in the collisional density as the number of impurity atoms increased. This enhancement is an indication of bosonic stimulation by the occupied final states. This stimulation was observed both at small and large velocities relative to the speed of sound. A theoretical calculation of the effect of finite temperature indicated that collision rate should be enhanced at small velocities due to thermal excitations. However, in the current experiments we were insensitive to this effect. Finally, the factor of two between the collisional rate between indistinguishable and distinguishable atoms was confirmed. A new BEC apparatus that can transport condensates using optical tweezers was constructed. Condensates containing 10-15 million sodium atoms were produced in 20 s using conventional BEC production techniques. These condensates were then transferred into an optical trap that was translated from the âproduction chamber’ into a separate vacuum chamber: the âscience chamber’. Typically, we transferred 2-3 million condensed atoms in less than 2 s. This transport technique avoids optical and mechanical constrainsts of conventional condensate experiments and allows for the possibility of novel experiments. In the first experiments using transported BEC, we loaded condensed atoms from the optical tweezers into both macroscopic and miniaturized magnetic traps. Using microfabricated wires on a silicon chip, we observed excitation-less propagation of a BEC in a magnetic waveguide. The condensates fragmented when brought very close to the wire surface indicating that imperfections in the fabrication process might limit future experiments. Finally, we generated a continuous BEC source by periodically replenishing a condensate held in an optical reservoir trap using fresh condensates delivered using optical tweezers. More than a million condensed atoms were always present in the continuous source, raising the possibility of realizing a truly continuous atom lase.
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http://www.archive.org/details/crossbearersofsa00harruoft
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In this thesis I present the work done during my PhD. The Thesis is divided into two parts; in the first one I present the study of mesoscopic quantum systems whereas in the second one I address the problem of the definition of Markov regime for quantum system dynamics. The first work presented is the study of vortex patterns in (quasi) two dimensional rotating Bose Einstein condensates (BECs). I consider the case of an anisotropy trapping potential and I shall show that the ground state of the system hosts vortex patterns that are unstable. In a second work I designed an experimental scheme to transfer entanglement from two entangled photons to two BECs. This work is meant to propose a feasible experimental set up to bring entanglement from microscopic to macroscopic systems for both the study of fundamental questions (quantum to classical transition) and technological applications. In the last work of the first part another experimental scheme is presented in order to detect coherences of a mechanical oscillator which is assumed to have been previously cooled down to the quantum regime. In this regime in fact the system can rapidly undergo decoherence so that new techniques have to be employed in order to detect and manipulate their states. In the scheme I propose a micro-mechanical oscillator is coupled to a BEC and the detection is performed by monitoring the BEC with a negligible back-action on the cantilever. In the second part of the thesis I give a definition of Markov regime for open quantum dynamics. The importance of such definition comes from both the mathematical description of the system dynamics and from the understanding of the role played by the environment in the evolution of an open system. In the Markov regime the mathematical description can be simplified and the role of the environment is a passive one.
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Current global inventories of ammonia emissions identify the ocean as the largest natural source. This source depends on seawater pH, temperature, and the concentration of total seawater ammonia (NHx(sw)), which reflects a balance between remineralization of organic matter, uptake by plankton, and nitrification. Here we compare [NHx(sw)] from two global ocean biogeochemical models (BEC and COBALT) against extensive ocean observations. Simulated [NHx(sw)] are generally biased high. Improved simulation can be achieved in COBALT by increasing the plankton affinity for NHx within observed ranges. The resulting global ocean emissions is 2.5 TgN a−1, much lower than current literature values (7–23 TgN a−1), including the widely used Global Emissions InitiAtive (GEIA) inventory (8 TgN a−1). Such a weak ocean source implies that continental sources contribute more than half of atmospheric NHx over most of the ocean in the Northern Hemisphere. Ammonia emitted from oceanic sources is insufficient to neutralize sulfate aerosol acidity, consistent with observations. There is evidence over the Equatorial Pacific for a missing source of atmospheric ammonia that could be due to photolysis of marine organic nitrogen at the ocean surface or in the atmosphere. Accommodating this possible missing source yields a global ocean emission of ammonia in the range 2–5 TgN a−1, comparable in magnitude to other natural sources from open fires and soils.
Anti-adherent and antifungal activities of surfactant-coated poly (ethylcyanoacrylate) nanoparticles
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Application of non-drug-loaded poly(ethylcyanoacrylate) nanoparticles (NP) to buccal epithelial cells (BEC) imparted both anti-adherent and antifungal effects. NP prepared using emulsion polymerisation and stabilised using cationic, anionic and non-ionic surfactants decreased Candida albicans blastospore adhesion, an effect attributable to the peripheral coating of surfactant. Cetrimide and Pluronic (R) P 123 were shown to be most effective, producing mean percentage reductions in blastospore adherence of 52.7 and 37.0, respectively. Resultant zeta potential matched the polarity of the surfactant, with those stabilised using cetrimide being especially positive (+31.3 mV). Preparation using anionic surfactants was shown to be problematic, with low yield and wide particle size distribution. Evaluation of the antifungal effect of the peripheral coat was evaluated using zones of inhibition and viable counts assays. The former test revealed poor surfactant diffusion through agar, but did show evidence of limited kill. However, the latter method showed that cationic surfactants associated with NP produced high levels of kill, in contrast to those coated with anionic surfactants, where kill was not evident. Non-ionic surfactant-coated NP produced intermediate kill rates. Results demonstrate that surfactant-coated NP, particularly the cationic types, form the possible basis of a prophylactic formulation that primes the candidal target (BEC) against fungal adhesion and infection. (c) 2007 Elsevier B.V. All rights reserved.
