Search for Neutron Flux Generation in a Plasma Discharge Electrolytic Cell

Following some recent unexpected hints of neutron production in setups like high-voltage atmospheric discharges and plasma discharges in electrolytic cells, we present a measurement of the neutron flux in a configuration similar to the latter. We use two different types of neutron detectors, poly-allyl-diglicol-carbonate (PADC, aka CR-39) tracers and Indium disks. At 95% C.L. we provide an upper limit of 1.5 neutrons cm^-2 s^-1 for the thermal neutron flux at ~5 cm from the center of the cell. Allowing for a higher energy neutron component the largest allowed flux is 64 neutrons cm^-2 s^-1. This upper limit is two orders of magnitude smaller than what previously claimed in an electrolytic cell plasma discharge experiment. Furthermore the behavior of the CR-39 is discussed to point our possible sources of spurious signals.Comment: 4 pages, 3 figure

Scalable interconnections for remote indirect exciton systems based on acoustic transport

Excitons, quasiparticles consisting of electron-hole pairs bound by the Coulomb interaction, are a potential medium for the processing of photonic information in the solid state. Information processing via excitons requires efficient techniques for the transport and manipulation of these uncharged particles.We have carried out a detailed investigation of the transport of excitons in GaAs quantum wells by surface acousticwaves. Based on these results, we introduce here a concept for the interconnection of multiple remote exciton systems based on the long-range transport of dipolar excitons by a network of configurable interconnects driven by acoustic wave beams. By combining this network with electrostatic gates, we demonstrate an integrated exciton multiplexer capable of interconnecting, gating, and routing exciton systems separated by millimeter distances. The multiplexer provides a scalable platform for the manipulation of exciton fluids with potential applications in information processingFinancial support by DFG Project No. SA 598/

Fusarium spp en trigo, capacidad toxicogenica y quimiotaxonomia de las cepas aisladas en la Argentina

Se aislaron e identificaron 91 cepas de Fusarium spp (F graminearum, F equiseti, F moniliforme, F m var anthophilum, F acuminatum, F solani y F oxisporum) a partir de semillas de trigo pan procedentes de 17 localidades trigueras de la República Argentina. Mediante el cultivo de las mismas en arroz pelado y pulido se evaluó la producción de tricotecenos y zearalenona, a los efectos de revelar si existen diferencias regionales en cuanto a su presencia. Se detectaron cepas productoras de tricotecenos del grupo B y zearalenona, no habiéndose hallado productoras del grupo A. De las cepas evaluadas el 82,4% produjeron tricotecenos que se subdividieron en dos grupos: a) las cepas productoras de deoxinivalenol (DON) y su precursor 3 acetil-deoxinivalenol (AcDON) y b) las productoras de nivalenol (NIV) y su precursor 4 acetil-nivalenol o fusarenona-x (FUS-X). Los resultados demostraron que el 48,3% de las cepas fueron productoras de DON, el 7,7% de NIV y el 26,4% tuvieron la capacidad de producir simultaneamente DON y NIV en los cultivos. Al considerar exclusivamente las cepas de F graminearum el 89,4% fueron toxicogénicas, de ellas el 55,9% pertenecieron al quimiotipo DON, 10,3% al quimiotipo NIV y 33,8% produjeron DON y NIV. En cuanto a la zearalenona (ZEA) el 63,2% del total de las cepas fueron productoras de esta toxina, no existiendo ninguna relación entre los grupos DON y NIV con la producción de ZEA. La distribución de las cepas toxicogénicas de Fusarium spp observada en las distintas localidades de la República Argentina, permite inferir la existencia de diferencias regionales en el área triguera.In wheat seeds from 17 different wheat growing sites, 91 Fusarium spp strains (F graminearum, F equiseti, F moniliforme, F m var anthophilum, F acuminatum, F solani and F oxysporum) were isolated and identified. The production of trichothecenes and zearalenone was evaluated after growing them on peeled and polished rice to find out if there were any regional differences in their prevalence. Strains producing trichothecenes of the B group and zearalenone were detected; no producers of the A groups were found. From the strains studied, 82.4% produced trichothecenes, and could be divided into 2 groups: a), deoxynivalenol (DON) producing strains and its precursor 3 acetyldeoxynivalenol (AcDON); and b), nivalenol (NIV) producing strains and its precursor 4 acetylnivalenol or fusarenone-x (FUS-X). The results showed that 48.3% of the strains were DON producers, 7.7% NIV producers and 26.4% produced both DON and NIV. Eighty-nine point four percent Fgraminearum strains were toxigenic; among them 55.9% were DON chemotype, 10.3% NIV chemotype and 33.8% produced DON and NIV. Sixty-three point two percent of the strains also produced zearalenone (ZEA), no relation existing between the DON and NIV groups with regard to ZEA production. The finding of certain toxigenic strains in various sites in Argentina allows us to conclude that regional differences exist

Role of Nanoclays in Carbon stabilization in Andisols and Cambisols

Greenhouse gas (GHG) emissions and their consequent effect on global warming are an issue of global environmental concern. Increased carbon (C) stabilization and sequestration in soil organic matter (SOM) is one of the ways to mitigate these emissions. Here we evaluated the role of nanoclays isolated from soil on C stabilization in both a C rich Andisols and C depleted Cambisols. Nanoclays were analyzed for size and morphology by transmission electron microscopy, for elemental composition and molecular composition using pyrolysis-GC/MS. Moreover, nanoclays were treated with H2O2 to isolate stable SOM associated with them. Our result showed better nanoclay extraction efficiency and higher nanoclay yield for Cambisol compared to Andisols, probably related to their low organic matter content. Nanoclay fractions from both soils were different in size, morphology, surface reactivity and SOM content. Nanoclays in Andisols sequester around 5-times more C than Cambisols, and stabilized 6 to 8-times more C than Cambisols nanoclay after SOM chemical oxidation. Isoelectric points and surface charge of nanoclays extracted from the two soils was very different. However, the chemical reactivity of the nanoclay SOM was similar, illustrating their importance for C sequestration. Generally, the precise C stabilization mechanisms of both soils may be different, with nanoscale aggregation being more important in Andisols. We can conclude that independent of the soil type and mineralogy the nanoclay fraction may play an important role in C sequestration and stabilization in soil-plant systems

Plasma Depletion and Mirror Waves Ahead of Interplanetary Coronal Mass Ejections

We find that the sheath regions between fast interplanetary coronal mass ejections (ICMEs) and their preceding shocks are often characterized by plasma depletion and mirror wave structures, analogous to planetary magnetosheaths. A case study of these signatures in the sheath of a magnetic cloud (MC) shows that a plasma depletion layer (PDL) coincides with magnetic field draping around the MC. In the same event, we observe an enhanced thermal anisotropy and plasma beta as well as anti-correlated density and magnetic fluctuations which are signatures of mirror mode waves. We perform a superposed epoch analysis of ACE and Wind plasma and magnetic field data from different classes of ICMEs to illuminate the general properties of these regions. For MCs preceded by shocks, the sheaths have a PDL with an average duration of 6 hours (corresponding to a spatial span of about 0.07 AU) and a proton temperature anisotropy ${T_{\perp p}\over T_{\parallel p}}\simeq 1.2$ -1.3, and are marginally unstable to the mirror instability. For ICMEs with preceding shocks which are not MCs, plasma depletion and mirror waves are also present but at a reduced level. ICMEs without shocks are not associated with these features. The differences between the three ICME categories imply that these features depend on the ICME geometry and the extent of upstream solar wind compression by the ICMEs. We discuss the implications of these features for a variety of crucial physical processes including magnetic reconnection, formation of magnetic holes and energetic particle modulation in the solar wind.Comment: fully refereed, accepted for publication in J. Geophys. Re

Risk Factors for operated carpal tunnel syndrome: a multicenter population-based case-control study

This article is available from: http://www.biomedcentral.com/1471-2458/9/34