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Post Info TOPIC: NEMO Project


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Posts: 131433
Date:
ANTARES Project
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Title: The ANTARES Optical Beacon System
Authors: M. Ageron, et al, ANTARES Collaboration

 ANTARES is a neutrino telescope being deployed in the Mediterranean Sea. It consists of a three dimensional array of photomultiplier tubes that can detect the Cherenkov light induced by charged particles produced in the interactions of neutrinos with the surrounding medium. High angular resolution can be achieved, in particular when a muon is produced, provided that the Cherenkov photons are detected with sufficient timing precision. Considerations of the intrinsic time uncertainties stemming from the transit time spread in the photomultiplier tubes and the mechanism of transmission of light in sea water lead to the conclusion that a relative time accuracy of the order of 0.5 ns is desirable. Accordingly, different time calibration systems have been developed for the ANTARES telescope. In this article, a system based on Optical Beacons, a set of external and well-controlled pulsed light sources located throughout the detector, is described. This calibration system takes into account the optical properties of sea water, which is used as the detection volume of the ANTARES telescope. The design, tests, construction and first results of the two types of beacons, LED and laser-based, are presented.

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Posts: 131433
Date:
NEMO Project
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Title: Status of the NEMO Project
Authors: Piera Sapienza (for the NEMO collaboration)

The NEMO project aims at the search, development and validation of key technologies for the construction, deployment and maintenance of an underwater Cherenkov km3 neutrino telescope in the Mediterranean Sea. Moreover, the NEMO Collaboration carried out a long term exploration of a 3500 m deep sea site close to the Sicilian coast; the study has shown that it is optimal for the installation of the detector. A Phase-1 project, which is under way, will validate the proposed technologies for the km3 detector on a Test Site at 2000 m depth. The realization of a new infrastructure on the candidate site (Phase-2 project) will provide the possibility to test detector components at 3500 m depth and will allow also a continuous monitoring of the site.

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