101 research outputs found

    New results on solar neutrino fluxes from 192 days of Borexino data

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    We report the direct measurement of the ^7Be solar neutrino signal rate performed with the Borexino detector at the Laboratori Nazionali del Gran Sasso. The interaction rate of the 0.862 MeV ^7Be neutrinos is 49+-3(stat)+-4(syst) counts/(day * 100ton). The hypothesis of no oscillation for ^7Be solar neutrinos is inconsistent with our measurement at the 4sigma level. Our result is the first direct measurement of the survival probability for solar nu_e in the transition region between matter-enhanced and vacuum-driven oscillations. The measurement improves the experimental determination of the flux of ^7Be, pp, and CNO solar nu_e, and the limit on the magnetic moment of neutrinos

    The Borexino detector at the Laboratori Nazionali del Gran Sasso

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    Borexino, a large volume detector for low energy neutrino spectroscopy, is currently running underground at the Laboratori Nazionali del Gran Sasso, Italy. The main goal of the experiment is the real-time measurement of sub MeV solar neutrinos, and particularly of the mono energetic (862 keV) Be7 electron capture neutrinos, via neutrino-electron scattering in an ultra-pure liquid scintillator. This paper is mostly devoted to the description of the detector structure, the photomultipliers, the electronics, and the trigger and calibration systems. The real performance of the detector, which always meets, and sometimes exceeds, design expectations, is also shown. Some important aspects of the Borexino project, i.e. the fluid handling plants, the purification techniques and the filling procedures, are not covered in this paper and are, or will be, published elsewhere (see Introduction and Bibliography).Comment: 37 pages, 43 figures, to be submitted to NI

    Science and technology of BOREXINO: A Real time detector for low-energy solar neutrinos: A Real Time Detector for Low Energy Solar Neutrinos

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    BOREXINO, a real-time device for low energy neutrino spectroscopy is nearing completion of construction in the underground laboratories at Gran Sasso, Italy (LNGS). The experiment's goal is the direct measurement of the flux of 7Be solar neutrinos of all flavors via neutrino-electron scattering in an ultra-pure scintillation liquid. Seeded by a series of innovations which were brought to fruition by large scale operation of a 4-ton test detector at LNGS, a new technology has been developed for BOREXINO. It enables sub-MeV solar neutrino spectroscopy for the first time. This paper describes the design of BOREXINO, the various facilities essential to its operation, its spectroscopic and background suppression capabilities and a prognosis of the impact of its results towards resolving the solar neutrino problem. BOREXINO will also address several other frontier questions in particle physics, astrophysics and geophysics

    Measurements of extremely low radioactivity levels in BOREXINO

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    The techniques researched, developed and applied towards the measurement of radioisotope concentrations at ultra-low levels in the real-time solar neutrino experiment BOREXINO at Gran Sasso are presented and illustrated with specific results of widespread interest. We report the use of low-level germanium gamma spectrometry, low-level miniaturized gas proportional counters and low background scintillation detectors developed in solar neutrino research. Each now sets records in its field. We additionally describe our techniques of radiochemical ultra-pure, few atom manipulations and extractions. Forefront measurements also result from the powerful combination of neutron activation and low-level counting. Finally, with our techniques and commercially available mass spectrometry and atomic absorption spectroscopy, new low-level detection limits for isotopes of interest are obtained.Comment: 27 pages, 5 figures. Submitted to Astroparticle Physics (17 Sep 2001). Spokesperson of the Borexino Collaboration: G. Bellini. Corresponding author: W. Hampe

    Kreativität als grundlegendes Soft-Skill im schulischen Bildungsprozess – zur Unabdingbarkeit dieser Leistungsdisposition für handlungskompetente Schüler

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    Mit dem grundlegenden Soft-Skill „Kreativität“ will sich dieser Beitrag in Folge und im Speziellen auseinandersetzen. Wie können Schule und Unterricht kreative Auseinandersetzungs- und Problemlösungsprozesse bei Schülern fördern, damit einen signifikanten Beitrag zum Erwerb individueller Handlungskompetenz leisten und somit junge Menschen auch erfolgreich auf die Anforderungen in unserer postindustriellen Gesellschaft vorbereiten? Dazu werden im folgenden Text zunächst die Facetten eines handlungskompetenten Schülers präsentiert, ehe im Anschluss auf das Soft-Skill Kreativität und dessen Förderungsmöglichkeiten im schulischen Unterricht beispielhaft eingegangen wird. Den Abschluss dieses Beitrages bildet der Versuch, eine Synthese von Soft- und Hard-Skills im Bildungsprozess zu präsentieren. Dabei wird dann die Unverzichtbarkeit beider Bereiche für einen individuell handlungskompetenten Schüler skizziert. (DIPF/Orig.

    Forensic maritime medicine

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    Zukunft der Bildung

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