Contributed Review: The saga of neutrinoless double beta decay search with TeO2 thermal detectors

Brofferio, C.; Dell’Oro, S.

doi:10.1063/1.5031485

Cited by 28 publications

(28 citation statements)

References 130 publications

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“…In neutrinoless double-beta searches based on heat-and-light composite bolometers, low threshold light detectors are used to suppress the background. In the case of TeO 2 based neutrinoless double-beta decay search, no exploitable scintillation signal is to-date available to reject the alpha (dominant) background in the region of interest [17]. However, a particle identification can be performed via Cherenkov radiation, emitted by electrons 3 [16].…”

Section: Discussionmentioning

confidence: 99%

“…In dark-matter searches, a high-performance light detector is required to lower the energy threshold [14] and to identify recoils of different-mass nuclei [15]. In double-beta decay searches, high-sensitivity light detectors are needed either to detect the feeble Cherenkov light emitted by poorlyscintillating crystals [16] (this is the case of the promising compound TeO 2 [17,18,19,20,21]), or to help in pile-up rejection (as in 100 Mo-enriched bolometers, [22,23,24]). The pile-up rejection capability is useful also to perform precision calorimetric measurements of rare-β-decay spectral shapes (as those of 113 Cd and 115 In) which can be used to scrutinize the value of the axialvector coupling constant [25,26,27].…”

Section: Introductionmentioning

confidence: 99%

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Charge-to-heat transducers exploiting the Neganov-Trofimov-Luke effect for light detection in rare-event searches

Novati

Bergé

Dumoulin

et al. 2019

Nuclear Instruments and Methods in Physics Research Section A:

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In this work we present how to fabricate large-area (15 cm 2 ), ultra-low threshold germanium bolometric photo-detectors and how to operate them to detect few (optical) photons. These detectors work at temperatures as low as few tens of mK and exploit the Neganov-Trofimov-Luke (NTL) effect. They are operated as charge-to-heat transducers: the heat signal is linearly increased by simply changing a voltage bias applied to special metal electrodes, fabricated onto the germanium absorber, and read by a (NTD-Ge) thermal sensor. We fabricated a batch of five prototypes and ran them in different facilities with dilution refrigerators. We carefully studied how impinging spurious infrared radiation impacts the detector performances, by shining infrared photons via optical-fiber-guided LED signals, in a controlled manner, into the bolometers. We hence demonstrated how the radiation-tightness of the test environment tremendously enhances the detector performances, allowing to set electrode voltage bias up to 90 volts without any leakage current and signal-to-noise gain as large as a factor 12 (for visible photons). As consequence, for the first time we could operate large-area NTD-Ge-sensorequipped NTL bolometric photo-detectors capable to reach sub 10-eV baseline noise (RMS). Such detectors open new frontiers for rare-event search experiments based on low light yield Ge-NTD equipped scintillating bolometers, such the CUPID neutrinoless double-beta decay experiment.1 The enhancement of visible-wavelength photons absorption was initially found to be 35% [45].

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Charge-to-heat transducers exploiting the Neganov-Trofimov-Luke effect for light detection in rare-event searches

Novati

Bergé

Dumoulin

et al. 2019

Nuclear Instruments and Methods in Physics Research Section A:

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“…The DBD of 130 Te has been largely studied using bolometers [115][116][117]. Thanks to a high natural isotopic abundance of 34%, enrichment is not necessary which makes it feasible to accumulate large amounts of tellurium oxide.…”

Section: Tellurium Dbd Experimentsmentioning

confidence: 99%

“…Two-neutrino DBD to excited states have been observed for both 100 Mo [195] and 150 Nd [196]. Other DBD emitters like 116 Cd can be studied using low background scintillators [197]. Even if limited in some cases, there is also information on the cosmogenic activation of targets containing some of these DBD isotopes.…”

Section: Other Dbd Target Materialsmentioning

confidence: 99%

“…The decay conserves the lepton number and is detectable for nuclei having an even number of neutrons and protons and the beta transition energetically forbidden or strongly suppressed by the angular momentum change. The DBD with emission of neutrinos, specifically reviewed in [15], has been observed for several nuclei ( 48 Ca, 76 Ge, 82 Se, 96 Zr, 100 Mo, 116 Cd, 128 Te, 130 Te, 136 Xe, 150 Nd and 238 U) with measured half-lives varying approximately from 10 19 to 10 24 y (see recommended values at [16]).…”

Section: Introductionmentioning

confidence: 99%

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Cosmogenic Activation in Double Beta Decay Experiments

Cebrián

2020

Universe

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Double beta decay is a very rare nuclear process and, therefore, experiments intended to detect it must be operated deep underground and in ultra-low background conditions. Long-lived radioisotopes produced by the previous exposure of materials to cosmic rays on the Earth’s surface or even underground can become problematic for the required sensitivity. Here, the studies developed to quantify and reduce the activation yields in detectors and materials used in the set-up of these experiments will be reviewed, considering target materials like germanium, tellurium and xenon together with other ones commonly used like copper, lead, stainless steel or argon. Calculations following very different approaches and measurements from irradiation experiments using beams or directly cosmic rays will be considered for relevant radioisotopes. The effect of cosmogenic activation in present and future double beta decay projects based on different types of detectors will be analyzed too.

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An automated system to define the optimal operating settings of cryogenic calorimeters

Alfonso

Bucci

Canonica

et al. 2021

Nuclear Instruments and Methods in Physics Research Section A:

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Contributed Review: The saga of neutrinoless double beta decay search with TeO2 thermal detectors

Cited by 28 publications

References 130 publications

Charge-to-heat transducers exploiting the Neganov-Trofimov-Luke effect for light detection in rare-event searches

Charge-to-heat transducers exploiting the Neganov-Trofimov-Luke effect for light detection in rare-event searches

Cosmogenic Activation in Double Beta Decay Experiments

An automated system to define the optimal operating settings of cryogenic calorimeters

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