The Majorana Experiment proposes to measure the effective mass of the electron neutrino to as low as 0.02 eV using well-tested technology. A half life of about 4E27 y, corresponding to a mass range of [0.02 - 0.07] eV can be reached by operating 500 kg of germanium enriched to 86% in Ge-76 deep underground. Radiological backgrounds of cosmogenic or primordial origin will be greatly reduced by ultra-low background screening of detector, structural, and shielding materials, by chemical processing of materials, and by electronic rejection of multi-site events in the detector. Electronic background reduction is achieved with pulse shape analysis, detector segmentation, and detector-to detector coincidence rejection.
Revised: June 2, 2005 |
Published: August 1, 2004
Citation
Miley H.S. 2004.The Majorana Experiment: a Straightforward Neutrino Mass Experiment Using The Double-Beta Decay of Ge-76. In Neutrino Oscillations and their Origin: Proceedings of the Fourth International Workshop, Kanazawa, Japan 10 - 14 February 2003, edited by Y Suzuki, M Nakahata, Y Itow, M Shiozawa & Y Obayashi, 318-325. Singapore:World Scientific Publishing Co. PTE LTD.PNNL-SA-38834.