411 research outputs found
Evaluation of magnetic helicity density in the wave number domain using multi-point measurements in space
We develop an estimator for the magnetic helicity density, a measure of the spiral geometry of magnetic field lines, in the wave number domain as a wave diagnostic tool based on multi-point measurements in space. The estimator is numerically tested with a synthetic data set and then applied to an observation of magnetic field fluctuations in the Earth foreshock region provided by the four-point measurements of the Cluster spacecraft. The energy and the magnetic helicity density are determined in the frequency and the wave number domain, which allows us to identify the wave properties in the plasma rest frame correcting for the Doppler shift. In the analyzed time interval, dominant wave components have parallel propagation to the mean magnetic field, away from the shock at about Alfvén speed and a left-hand spatial rotation sense of helicity with respect to the propagation direction, which means a right-hand temporal rotation sense of polarization. These wave properties are well explained by the right-hand resonant beam instability as the driving mechanism in the foreshock. Cluster observations allow therefore detailed comparisons with various theories of waves and instabilities
Titan's magnetic field signature during the Cassini T34 flyby: Comparison between hybrid simulations and MAG data
During the T34 flyby on 19 July 2007, the Cassini spacecraft passed through the magnetic pile-up region at Titan's ramside. The magnetic environment of Titan during this flyby is studied using a three-dimensional hybrid simulation model. This approach treats the electrons of the plasma as a massless, charge-neutralizing fluid, whereas the effects of finite ion gyroradii are taken into account by modeling the ions as individual particles. The simulation results are compared to data collected by the Cassini Magnetometer Instrument. The key features of the measured magnetic field signature have shown to be fully reproducible in the framework of the simulation model. Several signatures in the observed magnetic field can be ascribed to the passage of the Cassini spacecraft through the magnetic barrier upstream of Titan.Fil: Simon, S.. Technische Universitat Braunschweig; AlemaniaFil: Motschmann, U.. Technische Universitat Braunschweig; AlemaniaFil: Kleindienst, G.. Technische Universitat Braunschweig; AlemaniaFil: Glassmeier, K. H.. Technische Universitat Braunschweig; AlemaniaFil: Bertucci, Cesar. Consejo Nacional de Investigaciónes Científicas y Técnicas. Oficina de Coordinación Administrativa Ciudad Universitaria. Instituto de Astronomía y Física del Espacio. - Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales. Instituto de Astronomía y Física del Espacio; ArgentinaFil: Dougherty, M. K.. Imperial College London; Reino Unid
Управление в области энергосбережения и повышения энергоэффективности на предприятии АО "Транснефть-Центральная Сибирь"
Рост эффективности применения энергоресурсов – это одна из самых существенных задач XXI в. от результатов разрешения данной проблемы зависит место РФ в ряду развитых в экономическом отношении государств и уровень жизни граждан. РФ не просто располагает всеми необходимыми интеллектуальным потенциалом и природными ресурсами для успешного разрешения своих энергетических проблем, но и объективно – это ресурсная база для азиатских и европейских стран, экспортируя нефтепродукты, нефть и природный газ в объемах, стратегически значимых для стран-импортеров. Однако избыточность ТЭР в России совершенно не должна предусматривать энергорасточительность, поскольку только энергоэффективное хозяйствование при открытой рыночной экономике – это важный фактор конкурентоспособности российских услуг и товаров.Growth in the efficiency of the use of energy resources is one of the most significant tasks of the 21st century. From the results of solving this problem depends on the place of the Russian Federation among a number of economically developed countries and the standard of living of citizens. Russia does not just have all the necessary intellectual potential and natural resources to successfully solve its energy problems, but also objectively is a resource base for Asian and European countries, exporting oil products, oil and natural gas in volumes strategically important for importing countries. However, the redundancy of fuel and energy resources in Russia should not at all provide for energy waste, since only energy-efficient management in an open market economy is an important factor in
Characterization of polar organosulfates in secondary organic aerosol from the unsaturated aldehydes 2-E-pentenal, 2-E-hexenal, and 3-Z-hexenal
We show in the present study that the unsaturated aldehydes 2-E-pentenal, 2-E-hexenal, and 3-Z-hexenal are biogenic volatile organic compound (BVOC) precursors for polar organosulfates with molecular weights (MWs) 230 and 214, which are also present in ambient fine aerosol from a forested site, i.e., K-puszta, Hungary. These results complement those obtained in a previous study showing that the green leaf aldehyde 3-Z-hexenal serves as a precursor for MW 226 organosulfates. Thus, in addition to isoprene, the green leaf volatiles (GLVs) 2-E-hexenal and 3-Z-hexenal, emitted due to plant stress (mechanical wounding or insect attack), and 2-E-pentenal, a photolysis product of 3-Z-hexenal, should be taken into account for secondary organic aerosol and organosulfate formation. Polar organosulfates are of climatic relevance because of their hydrophilic properties and cloud effects. Extensive use was made of organic mass spectrometry (MS) and detailed interpretation of MS data (i.e., ion trap MS and accurate mass measurements) to elucidate the chemical structures of the MW 230, 214 and 170 organosulfates formed from 2-E-pentenal and indirectly from 2-E-hexenal and 3-Z-hexenal. In addition, quantum chemical calculations were performed to explain the different mass spectral behavior of 2,3-dihydroxypentanoic acid sulfate derivatives, where only the isomer with the sulfate group at C-3 results in the loss of SO3. The MW 214 organosulfates formed from 2-E-pentenal are explained by epoxidation of the double bond in the gas phase and sulfation of the epoxy group with sulfuric acid in the particle phase through the same pathway as that proposed for 3-sulfooxy-2-hydroxy-2-methylpropanoic acid from the isoprene-related alpha,beta-unsaturated aldehyde methacrolein in previous work (Lin et al., 2013). The MW 230 organosulfates formed from 2-E-pentenal are tentatively explained by a novel pathway, which bears features of the latter pathway but introduces an additional hydroxyl group at the C-4 position. Evidence is also presented that the MW 214 positional isomer, 2-sulfooxy-3-hydroxypentanoic acid, is unstable and decarboxylates, giving rise to 1-sulfooxy-2-hydroxybutane, a MW 170 organosulfate. Furthermore, evidence is obtained that lactic acid sulfate is generated from 2-E-pentenal. This chemistry could be important on a regional and local scale where GLV emissions such as from grasses and cereal crops are substantial
Handwritten digit recognition by bio-inspired hierarchical networks
The human brain processes information showing learning and prediction
abilities but the underlying neuronal mechanisms still remain unknown.
Recently, many studies prove that neuronal networks are able of both
generalizations and associations of sensory inputs. In this paper, following a
set of neurophysiological evidences, we propose a learning framework with a
strong biological plausibility that mimics prominent functions of cortical
circuitries. We developed the Inductive Conceptual Network (ICN), that is a
hierarchical bio-inspired network, able to learn invariant patterns by
Variable-order Markov Models implemented in its nodes. The outputs of the
top-most node of ICN hierarchy, representing the highest input generalization,
allow for automatic classification of inputs. We found that the ICN clusterized
MNIST images with an error of 5.73% and USPS images with an error of 12.56%
Improved emotion regulation after neurofeedback: A single-arm trial in patients with borderline personality disorder
Real-time functional magnetic resonance imaging (fMRI) neurofeedback training of amygdala hemodynamic activity directly targets a neurobiological mechanism, which contributes to emotion regulation problems in borderline personality disorder (BPD). However, it remains unknown which outcome measures can assess changes in emotion regulation and affective instability, associated with amygdala downregulation in a clinical trial. The current study directly addresses this question. Twenty-four female patients with a DSM-IV BPD diagnosis underwent four runs of amygdala neurofeedback. Before and after the training, as well as at a six-weeks follow-up assessment, participants completed measures of emotion dysregulation and affective instability at diverse levels of analysis (verbal report, clinical interview, ecological momentary assessment, emotion-modulated startle, heart rate variability, and fMRI). Participants were able to downregulate their amygdala blood oxygen-dependent (BOLD) response with neurofeedback. There was a decrease of BPD symptoms as assessed with the Zanarini rating scale for BPD (ZAN-BPD) and a decrease in emotion-modulated startle to negative pictures after training. Further explorative analyses suggest that patients indicated less affective instability, as seen by lower hour-to-hour variability in negative affect and inner tension in daily life. If replicated by an independent study, our results imply changes in emotion regulation and affective instability for several systems levels, including behavior and verbal report. Conclusions are limited due to the lack of a control group. A randomized controlled trial (RCT) will be needed to confirm effectiveness of the training
Volatiles in the Desert: Subtle Remote-sensing Signatures of the Dakhleh Oasis Catastrophic Event, Western Desert, Egypt
Over the past decade members of the Dakhleh Oasis Project have studied enigmatic signatures in the Pleistocene geologic record of portions of the Dakhleh oasis and palaeo-oasis in Egypt's Western Desert [1,2]. In particular, Si-Ca-Al rich glass melt (Dakhleh Glass, Fig. 1) points to a catastrophic event between c.100,000-200,000 years ago [3] in this well-studied African savannah and freshwater lake Middle Stone Age environment [4,5]
Chemical composition of isoprene SOA under acidic and non-acidic conditions: effect of relative humidity
The effect of acidity and relative humidity on bulk
isoprene aerosol parameters has been investigated in several studies;
however, few measurements have been conducted on individual aerosol
compounds. The focus of this study has been the examination of the effect of
acidity and relative humidity on secondary organic aerosol (SOA) chemical
composition from isoprene photooxidation in the presence of nitrogen oxide
(NOx). A detailed characterization of SOA at the molecular level was also
investigated. Experiments were conducted in a 14.5 m3 smog chamber
operated in flow mode. Based on a detailed analysis of mass spectra obtained
from gas chromatography–mass spectrometry of silylated derivatives in
electron impact and chemical ionization modes, ultra-high performance
liquid chromatography/electrospray ionization/time-of-flight high-resolution
mass spectrometry, and collision-induced dissociation in the negative
ionization modes, we characterized not only typical isoprene products but
also new oxygenated compounds. A series of nitroxy-organosulfates (NOSs) were
tentatively identified on the basis of high-resolution mass spectra. Under
acidic conditions, the major identified compounds include
2-methyltetrols (2MT), 2-methylglyceric acid (2mGA), and 2MT-OS. Other products identified
include epoxydiols, mono- and dicarboxylic acids, other organic sulfates,
and nitroxy- and nitrosoxy-OS. The contribution of SOA products from
isoprene oxidation to PM2.5 was investigated by analyzing ambient
aerosol collected at rural sites in Poland. Methyltetrols, 2mGA, and several
organosulfates and nitroxy-OS were detected in both the field and laboratory
samples. The influence of relative humidity on SOA formation was modest in
non-acidic-seed experiments and stronger under acidic seed aerosol. Total
secondary organic carbon decreased with increasing relative humidity under
both acidic and non-acidic conditions. While the yields of some of the
specific organic compounds decreased with increasing relative humidity,
others varied in an indeterminate manner from changes in the relative
humidity.</p
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