D. V. Kasperovych scite author profile

Anisotropic scintillators can offer a unique possibility to exploit the so-called directionality approach in order to investigate the presence of those Dark Matter (DM) candidates inducing nuclear recoils. In fact, their use can overcome the difficulty of detecting extremely short nuclear recoil traces. In this paper we present recent measurements performed on the anisotropic response of a ZnWO 4 crystal scintillator to nuclear recoils, in the framework of the ADAMO project. The anisotropic features of the ZnWO 4 crystal scintillators were initially measured with α particles; those results have been also confirmed by the additional measurements presented here. The experimental nuclear recoil data were obtained by using a neutron generator at ENEA-CASACCIA and neutron detectors to tag the scattered neutrons; in particular, the quenching factor values for nuclear recoils along different crystallographic axes have been determined for three different neutron scattering angles (i.e. nuclear recoils energies). From these measurements, the anisotropy of the light response for nuclear recoils in the ZnWO 4 crystal scintillator has been determined at 5.4 standard deviations.

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Final results of the Aurora experiment to study 2β decay of Cd116 with enriched
Barabash
¹
,
Belli
²
,
Bernabei
³

et al. 2018
Phys. Rev. D

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Search for Double Beta Decay of 106Cd with an Enriched 106CdWO4 Crystal Scintillator in Coincidence with CdWO4 Scintillation Counters

et al. 2020

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Studies on double beta decay processes in 106Cd were performed by using a cadmium tungstate scintillator enriched in 106Cd at 66% (106CdWO4) with two CdWO4 scintillation counters (with natural Cd composition). No effect was observed in the data that accumulated over 26,033 h. New improved half-life limits were set on the different channels and modes of the 106Cd double beta decay at level of limT1/2∼1020−1022 yr. The limit for the two neutrino electron capture with positron emission in 106Cd to the ground state of 106Pd, T1/22νECβ+≥2.1×1021 yr, was set by the analysis of the 106CdWO4 data in coincidence with the energy release 511 keV in both CdWO4 counters. The sensitivity approaches the theoretical predictions for the decay half-life that are in the range T1/2∼1021−1022 yr. The resonant neutrinoless double-electron capture to the 2718 keV excited state of 106Pd is restricted at the level of T1/20ν2K≥2.9×1021 yr.

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New development of radiopure ZnWO4 crystal scintillators

Belli

Bernabei

Borovlev

et al. 2019

Nuclear Instruments and Methods in Physics Research Section A:

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First search for 2ε and εβ+ decay of 174Hf

et al. 2020

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D. V. Kasperovych

Measurements of $$\hbox {ZnWO}_4$$ anisotropic response to nuclear recoils for the ADAMO project

Final results of the Aurora experiment to study 2β decay of Cd116 with enriched
Barabash
¹
,
Belli
²
,
Bernabei
³

et al. 2018
Phys. Rev. D

Search for Double Beta Decay of 106Cd with an Enriched 106CdWO4 Crystal Scintillator in Coincidence with CdWO4 Scintillation Counters

New development of radiopure ZnWO4 crystal scintillators

First search for 2ε and εβ+ decay of 174Hf

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D. V. Kasperovych

Measurements of $$\hbox {ZnWO}_4$$ anisotropic response to nuclear recoils for the ADAMO project

Final results of the Aurora experiment to study 2β decay of Cd116 with enriched Barabash1, Belli2, Bernabei3 et al. 2018Phys. Rev. D

Search for Double Beta Decay of 106Cd with an Enriched 106CdWO4 Crystal Scintillator in Coincidence with CdWO4 Scintillation Counters

New development of radiopure ZnWO4 crystal scintillators

First search for 2ε and εβ+ decay of 174Hf

Contact Info

Product

Resources

About

Final results of the Aurora experiment to study 2β decay of Cd116 with enriched
Barabash
¹
,
Belli
²
,
Bernabei
³

et al. 2018
Phys. Rev. D