279 research outputs found
Risk management in solitary agricultural work: new technologies for handling emergency and falls from great heights (SHADE)
Solitary work and agricultural activities are the scenarios of a large number of severe injuries and deaths, also because first aid may be difficult to achieve in isolated locations. This work proposes a technology available on smartphones that allows triggering an emergency call when a fall from height or an unconsciousness state is detected. The results of several tests, which include different detection algorithms and scenarios, are reported in this work. Tests performed with the aid of a dummy have allowed developing a reliable algorithm for the detection of dangerous situations. This system is available as an Android application
The GRAAL high resolution BGO calorimeter and its energy calibration and monitoring system
We describe the electromagnetic calorimeter built for the GRAAL apparatus at
the ESRF. Its monitoring system is presented in detail. Results from tests and
the performance obtained during the first GRAAL experiments are given. The
energy calibration accuracy and stability reached is a small fraction of the
intrinsic detector resolution.Comment: 19 pages, 14 figures, submitted to Nuclear Instruments and Method
PIXE and ToF-SIMS analysis of streaker samplers filters
This paper presents methodological innovations introduced in the characterisation of urban aerosol collected in Italy in a recent campaign. Two complementary ion beam analysis (IBA) techniques were used to analyse Nuclepore filters used in continuous streaker samplers to collect airborne particles in four Italian towns. Na to Pb elemental concentrations were obtained by particle induced X-ray emission (PIXE), while time of flight secondary ion mass spectrometry (ToF-SIMS) produced, on the same samples, time trends for several elements and molecular fragments. In addition, light attenuation measurements were used as a tracer for black carbon. The data produced by these three techniques was merged into a unique data set to address the characterisation of particulate matter sources. Correlations between elemental concentration trends (PIXE) and relative trends for molecular fragments (ToF-SIMS) and black carbon (light attenuation) have been studied by cluster and principal component analysis
Risk management in solitary agricultural work: new technologies for handling emergency and falls from great heights (SHADE)
Solitary work and agricultural activities are the scenarios of a large number of severe injuries and deaths, also because first aid may be difficult to achieve in isolated locations. This work proposes a technology available on smartphones that allows triggering an emergency call when a fall from height or an unconsciousness state is detected. The results of several tests, which include different detection algorithms and scenarios, are reported in this work. Tests performed with the aid of a dummy have allowed developing a reliable algorithm for the detection of dangerous situations. This system is available as an Android application
Characterisation of early medieval frescoes by ÎĽ-PIXE, SEM and Raman spectroscopy
Abstract We have studied the VIII–IX century frescoes of the Longobard temple of Cividale del Friuli in Italy with noninvasive sampling and, for the first time in such a context, with high chemical and spatial sensitivity techniques (PIXE, SEM and Raman). Results demonstrate richness of manufacturing details and integrate in a substantial way the historic and artistic framework of this early medieval monument
A summertime investigation on urban PM fine and coarse fractions using hourly elemental concentration data series
The summertime composition of particulate matter in the atmosphere of some Italian towns (Florence, Genoa and Milan) has been studied by means of Ion Beam Analysis (IBA) techniques. The aerosol has been collected simultaneously
by two-stage continuous streaker samplers, which separate and collect the PM10 particulate matter in two fractions. The hourly concentrations in air of about 20 elements have been extracted in the fine and coarse fractions of PM10 by Particle Induced X-ray (and Gamma-ray) Emission, PIXE (and PIGE) analysis. Absolute Principal Component Factor Analysis (APCFA) has been used to obtain the apportionment of the sources of particulate matter
Late Bronze Age Hoard studied by PIXE
The hoards of metallic objects belonging to the Late European Bronze Age can be interpreted
differently depending on the type, number and composition of the artefacts. PIXE analysis has
been performed in nine items from the Hoard of Freixanda in Portugal comprising 4 socket
axes, a palstave axe, a ring, a chisel, a dagger, and a casting debris. Besides the composition
of the main matrix elements, that is Cu and Sn, the amount of trace elements of interest like,
As, Pb, Ni and Ag has been determined using this ion beam technique. The high tin content
alloy and the high purity of the metals from the Freixanda hoard are characteristic of the
Portuguese and Spanish Late Bronze Age metallurgy, supporting the idea of a regional
production
Investigation of genomic DNA methylation by ultraviolet resonant Raman spectroscopy
Cytosine plays a preeminent role in DNA methylation, an epigenetic mechanism that regulates gene expression, the misregulation of which can lead to severe diseases. Several methods are nowadays employed for assessing the global DNA methylation levels, but none of them combines simplicity, high sensitivity, and low operating costs to be translated into clinical applications. Ultraviolet (UV) resonant Raman measurements at excitation wavelengths of 272 nm, 260 nm, 250 nm, and 228 nm have been carried out on isolated deoxynucleoside triphosphates (dNTPs), on a dNTP mixture as well as on genomic DNA (gDNA) samples, commercial from salmon sperm and non-commercial from B16 murine melanoma cell line. The 228 nm excitation wavelength was identified as the most suitable energy for enhancing cytosine signals over the other DNA bases. The UV Raman measurements performed at this excitation wavelength on hyper-methylated and hypo-methylated DNA from Jurkat leukemic T-cell line have revealed significant spectral differences with respect to gDNA isolated from salmon sperm and mouse melanoma B16 cells. This demonstrates how the proper choice of the excitation wavelength, combined with optimized extraction protocols, makes UV Raman spectroscopy a suitable technique for highlighting the chemical modifications undergone by cytosine nucleotides in gDNA upon hyper- and hypo-methylation events
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