The MAJORANA Project

S R Elliott; C E Aalseth; M Akashi-Ronquest; M Amman; J F Amsbaugh; F T Avignone Iii; H O Back; C Baktash; A S Barabash; P Barbeau; J R Beene; M Bergevin; F E Bertrand; M Boswell; V Brudanin; W Bugg; T H Burritt; Y-D Chan; T V Cianciolo; J Collar; R Creswick; M Cromaz; J A Detwiler; P J Doe; J A Dunmore; Yu Efremenko; V Egorov; H Ejiri; J Ely; J Esterline; H Farach; T Farmer; J Fast; P Finnerty; B Fujikawa; V M Gehman; C Greenberg; V E Guiseppe; K Gusey; A L Hallin; R Hazama; R Henning; A Hime; T Hossbach; E Hoppe; M A Howe; D Hurley; B Hyronimus; R A Johnson; M Keillor; C Keller; J Kephart; M Kidd; O Kochetov; S I Konovalov; R T Kouzes; K T Lesko; L Leviner; P Luke; S MacMullin; M G Marino; A B McDonald; D-M Mei; H S Miley; A W Myers; M Nomachi; B Odom; J Orrell; A W P Poon; G Prior; D C Radford; J H Reeves; K Rielage; N Riley; R G H Robertson; L Rodriguez; K P Rykaczewski; A G Schubert; T Shima; M Shirchenko; V Timkin; R Thompson; W Tornow; C Tull; T D Van Wechel; I Vanyushin; R L Varner; K Vetter; R Warner; J F Wilkerson; J M Wouters; E Yakushev; A R Young; C-H Yu; V Yumatov; Z-B Yin

doi:10.1088/1742-6596/173/1/012007

Journal of Physics: Conference Series

The following article is Open access

The MAJORANA Project

S R Elliott¹, C E Aalseth², M Akashi-Ronquest^3,4, M Amman⁵, J F Amsbaugh⁶, F T Avignone Iii^7,8, H O Back^4,9, C Baktash⁷, A S Barabash¹⁰, P Barbeau¹¹, J R Beene⁷, M Bergevin¹², F E Bertrand⁷, M Boswell^3,4, V Brudanin¹³, W Bugg¹⁴, T H Burritt⁶, Y-D Chan¹², T V Cianciolo⁷, J Collar¹¹, R Creswick⁸, M Cromaz¹², J A Detwiler¹², P J Doe⁶, J A Dunmore⁶, Yu Efremenko¹⁴, V Egorov¹³, H Ejiri¹⁵, J Ely², J Esterline^4,16, H Farach⁸, T Farmer², J Fast², P Finnerty^3,4, B Fujikawa¹², V M Gehman¹, C Greenberg¹¹, V E Guiseppe¹, K Gusey¹³, A L Hallin¹⁷, R Hazama¹⁵, R Henning^3,4, A Hime¹, T Hossbach², E Hoppe², M A Howe⁶, D Hurley¹², B Hyronimus², R A Johnson⁶, M Keillor², C Keller²¹, J Kephart^2,4,9, M Kidd^4,16, O Kochetov¹³, S I Konovalov¹⁰, R T Kouzes², K T Lesko^18,19, L Leviner^4,9, P Luke⁵, S MacMullin^3,4, M G Marino⁶, A B McDonald²⁰, D-M Mei²¹, H S Miley², A W Myers⁶, M Nomachi¹⁵, B Odom¹¹, J Orrell², A W P Poon¹², G Prior¹², D C Radford⁷, J H Reeves², K Rielage¹, N Riley¹¹, R G H Robertson⁶, L Rodriguez¹, K P Rykaczewski⁷, A G Schubert⁶, T Shima¹⁵, M Shirchenko¹³, V Timkin¹³, R Thompson², W Tornow^4,16, C Tull¹², T D Van Wechel⁶, I Vanyushin¹⁰, R L Varner⁷, K Vetter^12,22, R Warner², J F Wilkerson⁶, J M Wouters¹, E Yakushev¹³, A R Young^4,9, C-H Yu⁷, V Yumatov¹⁰ and Z-B Yin²¹

Published under licence by IOP Publishing Ltd
Journal of Physics: Conference Series, Volume 173, CAROLINA INTERNATIONAL SYMPOSIUM ON NEUTRINO PHYSICS 15–17 May 2008, Columbia Campus of the University of South Carolina, Columbia, South Carolina, USA Citation S R Elliott et al 2009 J. Phys.: Conf. Ser. 173 012007 DOI 10.1088/1742-6596/173/1/012007

Download Article PDF

Article metrics

679 Total downloads

Article and author information

Author affiliations

¹ Physics Division, Los Alamos National Laboratory, Los Alamos, NM, USA

² Pacific Northwest National Laboratory, Richland, WA, USA

³ Department of Physics and Astron., University of North Carolina, Chapel Hill, NC, USA

⁴ Triangle Universities Nuclear Laboratory, Durham, NC, USA

⁵ Engineering Division, Lawrence Berkeley National Laboratory, Berkeley, CA, USA

⁶ Center for Nucl. Phys. and Astrophys., University of Washington, Seattle, WA, USA

⁷ Oak Ridge National Laboratory, Oak Ridge, TN, USA

⁸ Department of Physics and Astronomy, University of South Carolina, Columbia, SC, USA

⁹ Department of Physics, North Carolina State University, Raleigh, NC, USA

¹⁰ Institute for Theoretical and Experimental Physics, Moscow, Russia

¹¹ University of Chicago, Chicago, IL, USA

¹² Nuclear Science Division, Lawrence Berkeley National Lab., Berkeley, CA, USA

¹³ Joint Institute for Nuclear Research, Dubna, Russia

¹⁴ Department of Physics and Astronomy, University of Tennessee, Knoxville, TN, USA

¹⁵ Res. Center for Nucl. Phys. & Department of Phys., Osaka University, Ibaraki, Osaka, Japan

¹⁶ Department of Physics, Duke University, Durham, NC, USA

¹⁷ Centre for Particle Physics, University of Alberta, Edmonton, Alberta, Canada

¹⁸ Inst. for Nucl. & Part. Astro., Lawrence Berkeley Natl. Lab., Berkeley, CA, USA

¹⁹ Physics Department, UC Berkeley, Berkeley, CA, USA

²⁰ Department of Physics, Queen's University at Kingston, Kingston, Ontario, Canada

²¹ Department of Earth Science and Phys., University of South Dakota, Vermillion, SD, USA

²² Department of Nuclear Engineering, UC Berkeley, Berkeley, CA, USA

Buy this article in print

Journal RSS

Sign up for new issue notifications

Abstract

Building a Ovββ experiment with the ability to probe neutrino mass in the inverted hierarchy region requires the combination of a large detector mass sensitive to Ovββ, on the order of 1-tonne, and unprecedented background levels, on the order of or less than 1 count per year in the Ovβ β signal region. The MAJORANA Collaboration proposes a design based on using high-purity enriched ⁷⁶Ge crystals deployed in ultralow background electroformed Cu cryostats and using modern analysis techniques that should be capable of reaching the required sensitivity while also being scalable to a 1-tonne size. To demonstrate feasibility, the collaboration plans to construct a prototype system, the MAJORANA DEMONSTRATOR, consisting of 30 kg of 86% enriched ⁷⁶Ge detectors and 30 kg of natural or isotope-76-depleted Ge detectors. We plan to deploy and evaluate two different Ge detector technologies, one based on a p-type configuration and the other on n-type.

Export citation and abstract BibTeX RIS

Previous article in issue

Next article in issue

Please wait… references are loading.

The MAJORANA Project

Article metrics

Share this article

Author affiliations

Abstract