The NEXT-100 experiment for neutrinoless double beta decay searches   (Conceptual Design Report)

NEXT Collaboration: V. \'Alvarez; M. Ball; M. Batall\'e; J. Bayarri,; F.I.G. Borges; S. C\'arcel; J.M. Carmona; J. Castel; J.M. Catal\'a; S.; Cebri\'an; A. Cervera-Villanueva; D. Chan; C.A.N. Conde; T. Dafni; T.H.V.T.; Dias; J. D\'iaz; R. Esteve; P. Evtoukhovitch; L.M.P. Fernandes; P. Ferrario,; E. Ferrer-Ribas; A.L. Ferreira; E.D.C. Freitas; A. Gil; I. Giomataris; A.; Goldschmidt; E. G\'omez; H. G\'omez; J.J. G\'omez-Cadenas; K. G\'onz\'alez,; R.M. Guti\'errez; J.A. Hernando-Morata; D.C. Herrera; V. Herrero; F. Iguaz,; I.G. Irastorza; V. Kalinnikov; A. Kustov; I. Liubarsky; J.A.M. Lopes; D.; Lorca; M. Losada; G. Luz\'on; J. Mart\'in-Albo; A. M\'endez; T. Miller; A.; Moisenko; J.P. Mols; F. Monrabal; C.M.B. Monteiro; J.M. Monz\'o; F.J. Mora,; J. Mu\~noz-Vidal; H. Natal da Luz; G. Navarro; M. Nebot; D. Nygren; C.A.B.; Oliveira; R. Palma; J.L. P\'erez-Aparicio; J. Renner; L. Ripoll; A.; Rodr\'iguez; J. Rodr\'iguez; F.P. Santos; J.M.F. dos Santos; L. Segu\'i; L.; Serra; C. Sofka; M. Sorel; H. Spieler; J.F. Toledo; A. Tom\'as; Z.; Tsamalaidze; D. V\'azquez; E. Velicheva; J.F.C.A. Veloso; J.A. Villar; R.; Webb; T. Weber; J. White; N. Yahlali

arXiv:1106.3630·physics.ins-det·June 21, 2011·43 cites

The NEXT-100 experiment for neutrinoless double beta decay searches (Conceptual Design Report)

NEXT Collaboration: V. \'Alvarez, M. Ball, M. Batall\'e, J. Bayarri,, F.I.G. Borges, S. C\'arcel, J.M. Carmona, J. Castel, J.M. Catal\'a, S., Cebri\'an, A. Cervera-Villanueva, D. Chan, C.A.N. Conde, T. Dafni, T.H.V.T., Dias, J. D\'iaz, R. Esteve, P. Evtoukhovitch

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TL;DR

The paper proposes a high-resolution, low-background time-projection chamber using electroluminescent amplification for neutrinoless double beta decay searches in Xe-136, aiming for rapid deployment and improved detection capabilities.

Contribution

It introduces the conceptual design of the NEXT-100 detector with innovative electroluminescent amplification and topological event signature measurement for enhanced sensitivity.

Findings

01

Design achieves <1% energy resolution

02

Prototype results demonstrate effective electroluminescent amplification

03

Detector can be constructed with minimal R&D by 2013

Abstract

We propose an EASY (Electroluminescent ApparatuS of high Yield) and SOFT (Separated Optimized FuncTion) time-projection chamber for the NEXT experiment, that will search for neutrinoless double beta decay (bb0nu) in Xe-136. Our experiment must be competitive with the new generation of bb0nu searches already in operation or in construction. This requires a detector with very good energy resolution (<1%), very low background con- tamination (1E-4 counts/(keV \bullet kg \bullet y)) and large target mass. In addition, it needs to be operational as soon as possible. The design described here optimizes energy resolution thanks to the use of proportional electroluminescent amplification (EL); it is compact, as the Xe gas is under high pressure; and it allows the measurement of the topological signature of the event to further reduce the background contamination. The SOFT design uses different…

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Taxonomy

TopicsNeutrino Physics Research · Particle physics theoretical and experimental studies · Dark Matter and Cosmic Phenomena