Extending the applicability of an open-ring trap to perform experiments with a single laser-cooled ion

An open-ring ion trap, also referred to as transparent trap was initially built up to perform $\beta$-$\nu$ correlation experiments with radioactive ions. This trap geometry is also well suited to perform experiments with laser-cooled ions, serving for the development of a new type of Penning trap, in the framework of the project TRAPSENSOR at the University of Granada. The goal of this project is to use a single $^{40}$Ca$^+$ ion as detector for single-ion mass spectrometry. Within this project and without any modification to the initial electrode configuration, it was possible to perform Doppler cooling on $^{40}$Ca$^+$ ions, starting from large clouds and reaching single ion sensitivity. This new feature of the trap might be important also for other experiments with ions produced at Radioactive Ion Beam (RIB) facilities. In this publication, the trap and the laser system will be described, together with their performance with respect to laser cooling applied to large ion clouds down to a single ion.Comment: 9 pages, 13 figure

Influence of a transverse static magnetic field on the magnetic hyperthermia properties and high-frequency hysteresis loops of ferromagnetic FeCo nanoparticles

The influence of a transverse static magnetic field on the magnetic hyperthermia properties is studied on a system of large-losses ferromagnetic FeCo nanoparticles. The simultaneous measurement of the high-frequency hysteresis loops and of the temperature rise provides an interesting insight into the losses and heating mechanisms. A static magnetic field of only 40 mT is enough to cancel the heating properties of the nanoparticles, a result reproduced using numerical simulations of hysteresis loops. These results cast doubt on the possibility to perform someday magnetic hyperthermia inside a magnetic resonance imaging setup.Comment: 6 pages, 3 figure

Extracorporeal cytokine hemadsorption for the treatment of refractory septic shock. Report of two cases

Indexación: Scopus.If Septic shock (SS) evolves to refractory SS, mortality could reach 90%, despite giving an optimal treatment. Nowadays, extracorporeal devices which adsorb inflammatory cytokines are available, reducing the systemic inflammatory response syndrome. These devices can be used with continuous renal replacement therapy or conventional hemodialysis. We report two diabetic females aged 50 and 58 years, who underwent a total colectomy and amputation of diabetic foot and who developed a SS with high requirements of vasoactive drugs (norepinephrine and adrenaline) to maintain a mean arterial pressure about 60 mmHg. Both were subjected to hemodialysis, connected to a cytokine hemadsorption device. The most important finding was the progressive reduction of vasopressor doses, effect that was observed nine hours after the beginning of the hemadsorption and lasted until its removal at 26 hours. Both patients survived. © 2018, Sociedad Medica de Santiago. All rights reserved.https://scielo.conicyt.cl/scielo.php?script=sci_arttext&pid=S0034-98872018000600796&lng=en&nrm=iso&tlng=e

Interaction of dexamethasone and montmorillonite

3 pages, 1 figure, 7 references.-- Congreso celebrado del 7-10 septiembre 1987 en Sevilla, España.-- EUROCLAY'87.Clay-drug interactions have been widely studied during the last decade. However, the reaction mechanisms responsible of these interactions only have been elucidated in sorne cases (1,2), most of them when cationic drugs are ínvolved. Neutral molecules are known to interact with clays by physical adsorption (3), and/or by hydrogen bonding (4). Dioxin is adsorbed onto montmorillonite by a reversible adsorption mechanism (5) and degrades by acid-catalyzed hydrolisis. The mechanism of ad sorption and degradation of the neutral steroid hydrocortisone by palygorskite and sepio1ite has be en recently studied (6,7). Two types of ferric iron present in these clays may be responsible for the different degradation rates of hydrocortisone.Peer reviewe

Decoloración y detoxificación de aguas de alperujo mediante el empleo de esmectitas e hidrotalcita

2 páginas.-- 1 figura.-- 1 tablas.-- 8 referencias.-- Poster presentado en XXIV Reunión de la Sociedad Española de Arcillas Sevilla. Libro de Resúmenes: Noviembre de 2015 en Sevilla.El alperujo es el residuo sólido del proceso de extracción de aceite de oliva virgen en dos fases, que se produce en grandes cantidades en diversas regiones españolas y cuyo empleo como fertilizante y enmendante de suelos, una vez compostado, facilita una salida sostenible para estos contribuyendo favorablemente al secuestro de carbono (1,2) No obstante también puede dar lugar a algunos efectos adversos: a) Coloración de las aguas, b) Deterioro del suelo por su acidez y sales, c) Solubilización, transporte y lixiviación de algunos metales pesados y plaguicidas (3, 4) y d) Fitotoxicidad sobre plantas y microrganismos acuáticos, si no han sido previamente compostados o tratados (5). Sobre la hipótesis del conocido potencial de los materiales arcillosos de interaccionar con la materia orgánica soluble (MOS) de suelos, sedimentos o residuos (4, 6), el objetivo del presente trabajo ha sido evaluarla capacidad de arcillas catiónicas y aniónicas como adsorbentes de la MOS procedente de alperujo, responsable de los efectos adversos descritos. La finalidad última es el posible desarrollo y utilidad de adsorbentes naturales para reducir la coloración y toxicidad de aguas de lavado de almazaras, o para su posible co-aplicación con alperujo a suelos agrícolas disminuyendo los efectos adversos sobre semillas o plantas o para corregir los efectos de un vertido puntual incontrolado.Este trabajo ha sido financiado a través de los proyectos P07-AGR-03077 y P11-AGR-07400 y AGR-264 de la Junta de Andalucía, cofinanciados por FEDER y FSE; y el Convenio RECUPERA 2020 del MINECO-CSIC.Peer reviewe

Quasi elastic cross sections for the Bi-209(e, e \u27 p)Pb-208 reaction: Jefferson Lab experiment E06007

Quasi elastic cross sections were measured for the first time for both negative and positive missing momenta for the Bi-209(e, e\u27p)Pb-208 reaction leading to the ground state and hole states of Pb-208. Experimental cross sections obtained between -0.3 GeV/c to 0.3 GeV/c agree with theoretical calculations using RDWIA techniques both in shape and magnitude for the ground state. The data for the ground state production of Pb-208 are consistent with a theoretical model assuming a single proton(1.06 +/- 0.10) in the 1h9/2 orbit in Bi-209

Beeping a Maximal Independent Set

We consider the problem of computing a maximal independent set (MIS) in an extremely harsh broadcast model that relies only on carrier sensing. The model consists of an anonymous broadcast network in which nodes have no knowledge about the topology of the network or even an upper bound on its size. Furthermore, it is assumed that an adversary chooses at which time slot each node wakes up. At each time slot a node can either beep, that is, emit a signal, or be silent. At a particular time slot, beeping nodes receive no feedback, while silent nodes can only differentiate between none of its neighbors beeping, or at least one of its neighbors beeping. We start by proving a lower bound that shows that in this model, it is not possible to locally converge to an MIS in sub-polynomial time. We then study four different relaxations of the model which allow us to circumvent the lower bound and find an MIS in polylogarithmic time. First, we show that if a polynomial upper bound on the network size is known, it is possible to find an MIS in O(log^3 n) time. Second, if we assume sleeping nodes are awoken by neighboring beeps, then we can also find an MIS in O(log^3 n) time. Third, if in addition to this wakeup assumption we allow sender-side collision detection, that is, beeping nodes can distinguish whether at least one neighboring node is beeping concurrently or not, we can find an MIS in O(log^2 n) time. Finally, if instead we endow nodes with synchronous clocks, it is also possible to find an MIS in O(log^2 n) time.Comment: arXiv admin note: substantial text overlap with arXiv:1108.192

Adsorción-desorción de los metales pesados Pb(II) y Hg(II) por modelos de partículas coloidales del suelo

4 páginas, 2 figuras, 1 tabla, 3 referencias.-- Publicado en el Capítulo IV: Contaminación y Medio Ambiente.-- Trabajo presentado a la XVII Reunión Científica de la Sociedad Española de Arcillas, celebrada en Elche (Alicante) y Castellón, del 27-29 de noviembre de 2002.El destino de los metales pesados en el medio ambiente está controlado por las reacciones de adsorción a los coloides del suelo. Por otro lado, las interacciones entre los constituyentes del suelo pueden alterar significativamente la cantidad y naturaleza de la superficie expuesta por los coloides del suelo para la adsorción de contaminantes. Por tanto, las predicciones sobre la extensión de la adsorción basadas en la suma de las capacidades adsorbentes de los constituyentes individuales del suelo pueden desviarse de lo que ocurre en la naturaleza (1). En la bibliografia han sido poco estudiadas las interacciones entre contaminantes y adsorbentes polifásicos, aunque en la última década ha aumentado la atención dada al estudio del comportamiento de modelos de asociaciones coloidales para obtener una interpretación más realista del proceso de adsorción en el suelo (2). En este trabajo se han determinado las capacidades adsorbentes de modelos de partículas coloidales binarias y ternarias que contienen montmorillonita (SW), ferrihidrita (Fh) y ácido húmico (AH) para dos contaminantes inorgánicos, los metales pesados Pb(lI) y Hg(II), Y se compararon con las capacidades de adsorción de los constituyentes individuales. Las partículas modelos se prepararon en el laboratorio y se caracterizaron por análisis elemental, espectroscopía infrarroja, difracción de rayos X y medidas de superficie específica. Se estudió la adsorción-desorción de Pb(lI) y Hg(ll) por parte de los diferentes adsorbentes y se utilizaron las técnicas de espectroscopía infrarroja y difracción de rayos X para analizar los mecanismos de interacción.Este trabajo ha sido financiado por el proyecto del MCYT REN2001-1700-C02- 01/TECNO y por el grupo RNM124 del PAI de la Junta de AndalucíaPeer reviewe

Enantioselective behavior of metalaxyl in soil under repeated applications

10 páginas.-- 5 imágenes.-- 2 tablas.-- 52 referenciasBACKGROUND: Soil incubation and column leaching experiments were conducted to address the question of whether the type of formulation (unsupported versus clay supported) and repeated applications of the chiral fungicide (RS)-metalaxyl affected the enantioselectivity of its dissipation and leaching in a slightly alkaline, loamy sand agricultural soil. RESULTS: Regardless of the type of formulation and the number of fungicide applications, the R-enantiomer of metalaxyl was degraded faster than the S-enantiomer, but the individual degradation rates of R- and S-metalaxyl were highly affected by the different application regimes assayed (t1/2 = 2-104 days). Repeated applications accelerated the degradation of the biologically active R-metalaxyl enantiomer, whereas they led to slower degradation of the non-active S-metalaxyl enantiomer. The type of formulation had less influence on the dissipation rates of the enantiomers. For all formulations tested, soil column leachates became increasingly enriched in S-enantiomer as the number of fungicide applications was increased, and application of metalaxyl to soil columns as clay-based formulations reduced the leaching of both enantiomers. CONCLUSION: Pesticide application conditions can greatly influence the enantioselective dissipation of chiral pesticides in soil, and hence are expected to exert a great impact on both the biological efficacy and the environmental chiral signatures of pesticides applied as mixtures of enantiomers or racemates to agricultural soils. © 2015 Society of Chemical Industry.This work has been financed by the Spanish Ministry of Economy and Competitiveness (MINECO Project AGL2011-23779) and Junta de Andalucía (Research Group AGR-264), cofinanced by European FEDER-FSE funds (Operative Programme 2007-2013). Beatriz Gámiz thanks the Junta de Andalucía for a post-doctoral contract linked to the project P07-AGR-03077. María Adelino thanks MINECO for a predoctoral FPI fellowship. The authors also thank MJ Calderón (IRNAS, CSIC),MI Cardo (IRNAS, CSIC) and P Franco (Chiral Technologies Europe) for technical assistance, and Dr. S Redondo and Dr. E Mateos (University of Seville) for their help with the statistical treatment of the data.Peer reviewe

Potential role of predators on carbon dynamics of marine ecosystems as assessed by a Bayesian belief network.

While the effects of climate change on top predators are well documented, the role of predation on ecosystem level carbon production is poorly developed, despite it being a logical consequence of trophic dynamics. Trophic cascade effects have shown predator mediated changes in primary production, but we predict that predators should lower the overall biomass capacity of any system with top down control. Through a simple Bayesian belief network model of a typical marine foodweb, we show that predator removal, as is common through activities such as fishing and shark finning, results in higher biomasses of lower trophic level fish and zooplankton, resulting in higher net carbon production by the system. In situations common throughout much of the ocean, where activities such as shark finning and over fishing reduce the highest tropic levels, the probability of net carbon production increasing in the model was ~ 60%, and unlike previous studies on simple food chains, trophic cascade effects were not present. While the results are preliminary, and sources of uncertainty in data and models are acknowledged, such results provide even more strength to the argument to protect open sea fish stocks, and particularly large predators such as sharks, cetaceans and game fish