878 research outputs found
Full Characterization of the First 1 Inch Industrial Prototype of a New Concept Photodetector
The VSiPMT (Vacuum Silicon PhotoMultiplier Tube) is an original design for an
innovative light detector we proposed with the aim to create new scientific
instrumentation for industrial applications and physics research. The idea
behind this device is to replace the classical dynode chain of a
photomultiplier tube with a silicon photomultiplier, the latter acting as an
electron detector and amplifier. The VSiPMT offers very attractive features and
unprecedented performance, definitely superior to every other photodetector
with comparable sensitive surface, such as: negligible power cosumption,
excellent photon counting, easy low-voltage-based stabilization and very good
time performance. After the feasibility test of the idea, Hamamatsu Photonics
realized for our research group two VSiPMT industrial prototypes, that have
been fully characterized. The results of the full characterization of the
1-inch industrial prototype are presented in this work.Comment: 11 pages, 14 figure
A study of methods to predict and measure the transmission of sound through the walls of light aircraft
Several research investigations are discussed. The development of a numerical/empirical noise source identification procedure using boundary element techniques, the identification of structure-borne paths using structural intensity and finite element methods, the development of a design optimization numerical procedure to be used to study active noise control in three-dimensional geometries, and the measurement of the dynamic properties of acoustical foams and the incorporation of these properties in models governing three-dimensional wave propagation in foams are discussed
A flexible quantum efficiency measurement device for photosensors testing
This paper presents a new quantum efficiency setup based on a 2D motorized
stage, a wide spectrum xenon lamp, a beam splitter system, and two calibrated
photodiodes for measuring the quantum efficiency (QE) of photosensors from PMTs
(1 to 10 inches) to SIPM and photodiodes. The large area covered by the 2D
stages permit to study the quantum efficiency of a matrix of multichannel
photosensors in an automated way and PMTs with diameter up to ten inches. The
setup offers high precision and accuracy in characterizing the quantum
efficiency versus wavelength over the range of 250 nm to 1100 nm and in two
dimensions with a positioning precision of ten microns. The setup monitors the
light intensity synchronously with the output current yield from photosensors
under test. This ensures the accuracy and repeatability of the measurements.
The motorized stage allows precise positioning of the light source with respect
to the active area. Moreover, the emission spectrum of the xenon lamp provides
a broad range of illumination in terms of dynamics and wavelength span
NASA follow-on to the Bangladesh Agro-Climatic Environmental Monitoring Project
The NASA responsibility and activities for the follow-on to the original Agro-Climatic Environmental Monitoring Project (ACEMP) which was completed during 1987 is described. Five training sessions which comprise the NASA ACEMP follow-on are: Agrometeorology, Meteorology of Severe Storms Using GEMPAK, Satellite Oceanography, Hydrology, and Meteorology with TOVS. The objective of the follow-on is to train Bangladesh Government staff in the use of satellite data for remote sensing applications. This activity also encourages the scientific connection between NASA/Goddard Space Flight Center and The Bangladesh Space and Remote Sensing Organization (SPARRSO)
Clinopyroxene-liquid thermometers and barometers specific to alkaline differentiated magmas
We present new thermometers and barometers based on clinopyroxene-liquid equilibria specific to alkaline differentiated magmas. The new models were calibrated through the regression analyses of experimental datasets obtained by merging phase equilibria experiments from the literature with new experiments performed by using trachytic and phonolitic starting compositions. The regression strategy was twofold: (1) we have tested previous thermometric and barometric equations and recalibrated these models using the new datasets; (2) we have calibrated a new thermometer and a new barometer including only regression parameters that closely describe the compositional variability of the datasets. The new models yield more precise estimates than previous thermometers and barometers when used to predict temperatures and pressures of alkaline differentiated magmas. We have tested the reliability of the new equations by using clinopyroxene-liquid pairs from trachytes and phonolites erupted during major explosive eruptions at the Phlegrean Fields and Mt. Vesuvius (central Italy). The test yielded crystallization conditions comparable to those determined by means of melt and fluid inclusion analyses and phase equilibria studies; this validates the use of the proposed models for precise estimates of crystallization temperatures and pressures in differentiated alkaline magmas. Because these magmas feed some of the most voluminous, explosive, and threatening volcanic eruptions in the world, a better understanding of the environmental conditions of their reservoirs is mandatory and this is now possible with the new models provided here. © 2013 Springer-Verlag Berlin Heidelberg
A new generation photodetector for astroparticle physics: the VSiPMT
The VSiPMT (Vacuum Silicon PhotoMultiplier Tube) is an innovative design we
proposed for a revolutionary photon detector. The main idea is to replace the
classical dynode chain of a PMT with a SiPM (G-APD), the latter acting as an
electron detector and amplifier. The aim is to match the large sensitive area
of a photocathode with the performance of the SiPM technology. The VSiPMT has
many attractive features. In particular, a low power consumption and an
excellent photon counting capability. To prove the feasibility of the idea we
first tested the performance of a special non-windowed SiPM by Hamamatsu (MPPC)
as electron detector and current amplifier. Thanks to this result Hamamatsu
realized two VSiPMT industrial prototypes. In this work, we present the results
of a full characterization of the VSiPMT prototype
A study of methods to predict and measure the transmission of sound through the walls of light aircraft
Progress was made in the following areas: development of a numerical/empirical noise source identification procedure using bondary element techniques; identification of structure-borne noise paths using structural intensity and finite element methods; development of a design optimization numerical procedure to be used to study active noise control in three-dimensional geometries; measurement of dynamic properties of acoustical foams and incorporation of these properties in models governing three-dimensional wave propagation in foams; and structure-borne sound path identification by use of the Wigner distribution
Study of the stability of a paramagnetic label linked to mesoporous silica surface in contact with rat mesothelial cells in culture.
Stable radicals detectable by electron paramagnetic resonance (EPR) may be use in the investigation of early events in cell-particle toxicity. Piperidine-N-oxyl derivatives (nitroxides), covalently linked to the surface of a high surface area silica (used as model solid for the technique), served as probes in the investigation of the effects of incubation of silica particles with mesothelial cells. A mesoporous silica (MCM-41), prepared by precipitation from a micellar solution, was the most appropriate silica-based particle for this purpose, as its channels allow direct contact with small molecules but not with macromolecules. The cytotoxicity of this amorphous silica is very low, allowing relatively high particle loading in the cell cultures. Both the high surface area of the sample and the large amount of inorganic material extracted from the cell culture provide enough material to run reasonably intense EPR spectra. Computer-aided analysis of the EPR spectra of silica-bound nitroxides provided information on the sensitivity of the labeled silica monitoring different environments, e.g., to follow the path of particles in a mammalian cell culture. Upon contact of the particles with mesothelial cells, the mean distance among the labels at the silica surface decreased as a consequence of the release of oxidizing and/or radical moieties from the cells
- …