In the view of exploring the inverted hierarchy region future experiments investigating the neutrinoless double beta decay have to demand for detectors with excellent energy resolution and zero background in the energy region of interest. Cryogenic scintillating bolometers are very suitable detectors for this task since they provide particle discrimination: the simultaneous detection of the phonon and light signal allows us to identify the interacting type of particle and thus guarantees a suppression of α-induced backgrounds, the key-issue for next-generation tonne-scale bolometric experiments. The LUCIFER project aims at running the first array of enriched scintillating Zn82Se bolometers (total mass of about 8kg of 82Se) with a background level as low as 10--3 counts/(keV kg y) in the energy region of interest. The main effort is currently focused on the finalization of the crystal growth procedure in order to achieve high quality Zn82Se crystals both in terms of radiopurity and bolometric properties. We present results from tests of such crystals operated at mK temperatures which demonstrate the excellent background rejection capabilities of this detection approach towards a background-free demonstrator experiment. Besides, the high purity of the enriched 82Se material allows us to establish the most stringent limits on the half-life of the double beta decay of 82Se on excited levels.

Beeman, J., Bellini, F., Benetti, P., Cardani, L., Casali, N., Chiesa, D., et al. (2016). The LUCIFER Project: Achievements and Near Future Prospects. JOURNAL OF LOW TEMPERATURE PHYSICS, 184(3-4), 852-858 [10.1007/s10909-015-1423-6].

The LUCIFER Project: Achievements and Near Future Prospects

CHIESA, DAVIDE;CLEMENZA, MASSIMILIANO;GIRONI, LUCA;GOTTI, CLAUDIO;MAINO, MATTEO;Pagnanini, L;Pattavina, L;PESSINA, GIANLUIGI EZIO;PREVITALI, EZIO;
2016

Abstract

In the view of exploring the inverted hierarchy region future experiments investigating the neutrinoless double beta decay have to demand for detectors with excellent energy resolution and zero background in the energy region of interest. Cryogenic scintillating bolometers are very suitable detectors for this task since they provide particle discrimination: the simultaneous detection of the phonon and light signal allows us to identify the interacting type of particle and thus guarantees a suppression of α-induced backgrounds, the key-issue for next-generation tonne-scale bolometric experiments. The LUCIFER project aims at running the first array of enriched scintillating Zn82Se bolometers (total mass of about 8kg of 82Se) with a background level as low as 10--3 counts/(keV kg y) in the energy region of interest. The main effort is currently focused on the finalization of the crystal growth procedure in order to achieve high quality Zn82Se crystals both in terms of radiopurity and bolometric properties. We present results from tests of such crystals operated at mK temperatures which demonstrate the excellent background rejection capabilities of this detection approach towards a background-free demonstrator experiment. Besides, the high purity of the enriched 82Se material allows us to establish the most stringent limits on the half-life of the double beta decay of 82Se on excited levels.
Articolo in rivista - Articolo scientifico
Cryogenic detector; Double beta decay; Particle identification; Scintillating bolometer; Zinc selenide;
Cryogenic detector; Double beta decay; Particle identification; Scintillating bolometer; Zinc selenide; Atomic and Molecular Physics, and Optics; Materials Science (all); Condensed Matter Physics
English
2016
184
3-4
852
858
none
Beeman, J., Bellini, F., Benetti, P., Cardani, L., Casali, N., Chiesa, D., et al. (2016). The LUCIFER Project: Achievements and Near Future Prospects. JOURNAL OF LOW TEMPERATURE PHYSICS, 184(3-4), 852-858 [10.1007/s10909-015-1423-6].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/133612
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