2,284 research outputs found
Detectors for leptonic CP violation at the neutrino factory
Studies carried out in the framework of the International Design Study for the Neutrino Factory (the IDS-NF) show that the sensitivity to the CP violating phase and the last unknown mixing angle θ13 is maximised when two far detectors optimized to detect the sub-leading νe to νμ oscillation are combined. Several technologies are being discussed for these detectors: magnetised iron calorimeters; giant liquid argon TPCs; and totally active scintillating detectors. The IDS-NF baseline option, a compromise between feasibility, cost, and performance, is documented in the Interim Design Report (IDR) that has recently been completed. It consists of two magnetised iron sampling calorimeters, similar to the existing MINOS detector, but with 10-20 times more mass and improved performance. A detector of mass 100 kton is assumed at the intermediate baseline (between 2500 km and 5000 km) and a 50 kton detector at the long baseline (between 7000 km and 8000 km). The other far-detector options, which have better granularity, may be able to detect additional oscillation channels, thus improving the overall performance of the facility. However, these options are likely to be more expensive and require significant R&D
Scintillator manufacture at Fermilab
A decade of research into plastic scintillation materials at Fermilab is reviewed. Early work with plastic optical fiber fabrication is revisited and recent experiments with large-scale commercial methods for production of bulk scintillator are discussed. Costs for various forms of scintillator are examined and new development goals including cost reduction methods and quality improvement techniques are suggested
Time Resolution and Linearity Measurements for a Scintillating Fiber Detector Instrumented with VLPC's
The time resolution for a charged particle detection is reported for a
typical scintillating fiber detector instrumented with Rockwell HISTE-IV
Visible Light Photon Counters. The resolution measurements are shown to agree
with a simple Monte Carlo model, and the model is used to make recomendations
for improved performance. In addition, the gain linearity of a sample of VLPC
devices was measured. The gain is shown to be linear for incident light
intensities which produce up to approximately 600 photoelectrons per event.Comment: 18 pages, 14 figures; Submitted to Nucl. Instr & Meth. in Phys. Res.
A; Please direct correspondence to [email protected]
Embodied Contradictions and Post-Industrial Built Environments
In October of 2004, the Museo de Medicina Laboral (Museum of Labor Medicine), opened to the public in Real del Monte, State of Hidalgo, Mexico. The museum, located on the grounds of what had been the Hospital Minero (Mining Hospital), was a building complex conceived, built, and operationalized at the height of Mexico’s Industrial Revolution and the region’s only medical facility specializing in the healthcare needs of miners and their families. Utilizing historical analysis, the hospital reveals contradictions frequently embodied by the era’s Modernist built environments. Inaugurated in 1907, the hospital was the culmination of the United States Smelting Refining and Mining Company (USSRMC) and its Mexican subsidiary, CompañĂa Real del Monte y Pachuca’s (CRMyP) efforts to bring healthcare to its employees while maximizing production. On one hand, the hospital’s design and operation expressed an optimism wrought by the dissemination of positivist and utilitarian philosophies and economic growth spurred by technological innovation; on the other, growing wealth inequality and deteriorating, often brutal, labor conditions.
Nearly 120 years later, the hospital again embodies a global reality. In contemporary post-industrialist economies, once these built environments cease being productive, they are usually abandoned or demolished; only a few are transformed and repositioned for other uses. As the region’s mining industry ceased productivity, the hospital was first abandoned and later rescued by a newly privatized enterprise that donated the medical building complex to a non-for-profit civil association focused on mining heritage. Now the Museum, an architectural expression that fused global and local economic, technological, and aesthetic sensibilities, has become an example of commodified didactic heritage
Toroidal magnetized iron neutrino detector for a neutrino factory
A neutrino factory has unparalleled physics reach for the discovery and measurement of CP violation in the neutrino sector. A far detector for a neutrino factory must have good charge identification with excellent background rejection and a large mass. An elegant solution is to construct a magnetized iron neutrino detector (MIND) along the lines of MINOS, where iron plates provide a toroidal magnetic field and scintillator planes provide 3D space points. In this paper, the current status of a simulation of a toroidal MIND for a neutrino factory is discussed in light of the recent measurements of large θ13. The response and performance using the 10 GeV neutrino factory configuration are presented. It is shown that this setup has equivalent δCP reach to a MIND with a dipole field and is sensitive to the discovery of CP violation over 85% of the values of δCP
Advanced Radiation Panel design for applications in National Security and Food Safety
We describe a new concept for a basic radiation detection panel based on
conventional scintillator technology and commercially available solid-state
photo-detectors. The panels are simple in construction, robust, very efficient
and cost-effective and are easily scalable in size, from tens of cm to tens
of m. We describe two possible applications: flagging radioactive food
coontamination and detection of illicit radio nucleides, such as those
potentially used in a terrorist attack with a dirty bomb.Comment: 10 pages, 11 figure
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