Gaseous time projection chambers for rare event detection: results from the T-REX project. I. Double beta decay

Irastorza, I.G.; Aznar, Francisco; Castel, J.; Cebrián, S.; Dafní, T.; Galán, J.; Garcı́a, Juan Antonio; Garza, J.G.; Gómez, H.; Herrera, D.C.; Iguaz, F.J.; Luzón, G.; Mirallas, H.; Ruiz, Eduardo; Tomás, A.

doi:10.1088/1475-7516/2016/01/033

Cited by 34 publications

(42 citation statements)

References 48 publications

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“…New activity measurements for the microbulk Micromegas and Cu-kapton-Cu foil samples (previously measured with Ge spectroscopy) were carried out profiting the great capabilities of the BiPo-3 detector operating at LSC (#28,31 of table 1). For both cases, only limits to the contamination in 208 Tl and 214 Bi can be deduced, which improve the Ge spectrometry limits by more than 2 orders of magnitude, pointing to contaminations at the level of, or below, ∼0.1 µBq/cm 2 [14]. A more sensitive measurement for microbulk Micromegas produced at CERN was made in 2016, using two capsules of the BiPo-3 detector (30×30 cm 2 each); results shown in #33 of table 1 point to a very significant reduction of the upper limits of both 208 Tl and 214 Bi.…”

Section: Micromegasmentioning

confidence: 97%

“…An exhaustive material radioassay campaign for TREX-DM was undertaken a few years ago [11,14,31], as made in other experiments in the context of rare event searches (see for instance recent results in [32,33,34,35,36,37,38]). It has allowed, on one side, to design and construct the detector and shielding according to the radiopurity specifications and, on the other, to provide inputs to build the experiment background model.…”

Section: Measurements Of Materials Radiopuritymentioning

confidence: 99%

“…It is also worth noting that no indication of a possible 210 Pb contamination has been found in any of the measurements for this sample, as there is no excess over background at the 46.5 keV peak. A number of other samples involved in various Micromegas fabrication processes have also been measured [14]. A sample of pyralux sheets, used in the construction of bulk Micromegas, showed good radiopurity first in germanium screening (#37 of table 1) and afterwards using the BiPo-3 detector (#38 of table 1).…”

Section: Micromegasmentioning

confidence: 99%

“…Different technologies have been built: bulk Micromegas have the readout plane and the mesh all in one and microbulk Micromegas are in addition more homogeneous and radiopure [13]. They offer important advantages for rare event detection [12,14]: the possibility of scaling-up, topological information to discriminate backgrounds from the expected signal (just a few microns track for dark matter particles, giving a point-like event) and low intrinsic radioactivity as they 1 Electron equivalent energy. arXiv:1812.04519v2 [astro-ph.IM] 22 Sep 2019 are made out of kapton and copper, potentially very clean.…”

Section: Introductionmentioning

confidence: 99%

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Background assessment for the TREX dark matter experiment

et al. 2019

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TREX-DM is conceived to look for low-mass Weakly Interacting Massive Particles (WIMPs) using a gas Time Projection Chamber equipped with Micromegas readout planes at the Canfranc Underground Laboratory. The detector can hold in the active volume ∼20 l of pressurized gas up to 10 bar, corresponding to 0.30 kg of Ar or 0.16 kg of Ne. The Micromegas are read with a self-triggered acquisition, being thresholds below 0.4 keV (electron equivalent) at reach. A low background level in the lowest energy region is another essential requirement. To assess the expected background, all the relevant sources have been considered, including the measured fluxes of gamma radiation, muons and neutrons at the Canfranc Laboratory, together with the activity of most of the components used in the detector and ancillary systems, obtained in a complete assay program. The background contributions have been simulated by means of a dedicated application based on Geant4 and a custom-made code for the detector response. The background model developed for the detector presently installed in Canfranc points to levels from 1 to 10 counts keV −1 kg −1 d −1 in the region of interest, making TREX-DM competitive in the search for low-mass WIMPs. A roadmap to further decrease it down to 0.1 counts keV −1 kg −1 d −1 is underway.

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Section: Micromegasmentioning

confidence: 97%

Section: Measurements Of Materials Radiopuritymentioning

confidence: 99%

Section: Micromegasmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Background assessment for the TREX dark matter experiment

et al. 2019

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“…Being gaseous detectors, the scaling-up prospects of gas TPCs are typically considered modest. However, advances in electronics and novel micro-pattern gas readout planes (especially Micromegas) are changing this view (see [24, 25] and references therein). The objective of the T-REX project [26, 27] has been to study the applicability of Micromegas readouts TPCs to rare event searches (not just to WIMP searches, but also axions [28] and double beta decay [29]).…”

Section: Introductionmentioning

confidence: 99%

TREX-DM: a low-background Micromegas-based TPC for low-mass WIMP detection

et al. 2016

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If Dark Matter is made of Weakly Interacting Massive Particles (WIMPs) with masses below GeV, the corresponding nuclear recoils in mainstream WIMP experiments are of energies too close, or below, the experimental threshold. Gas Time Projection Chambers (TPCs) can be operated with a variety of target elements, offer good tracking capabilities and, on account of the amplification in gas, very low thresholds are achievable. Recent advances in electronics and in novel radiopure TPC readouts, especially micro-mesh gas structure (Micromegas), are improving the scalability and low-background prospects of gaseous TPCs. Here we present TREX-DM, a prototype to test the concept of a Micromegas-based TPC to search for low-mass WIMPs. The detector is designed to host an active mass of kg of Ar at 10 bar, or alternatively kg of Ne at 10 bar, with an energy threshold below 0.4 keVee, and is fully built with radiopure materials. We will describe the detector in detail, the results from the commissioning phase on surface, as well as a preliminary background model. The anticipated sensitivity of this technique may go beyond current experimental limits for WIMPs of masses of 2–8 GeV.

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Conceptual design of BabyIAXO, the intermediate stage towards the International Axion Observatory

Abeln¹,

Altenmüller²,

Cuendis³

et al. 2021

J. High Energ. Phys.

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This article describes BabyIAXO, an intermediate experimental stage of the International Axion Observatory (IAXO), proposed to be sited at DESY. IAXO is a large-scale axion helioscope that will look for axions and axion-like particles (ALPs), produced in the Sun, with unprecedented sensitivity. BabyIAXO is conceived to test all IAXO subsystems (magnet, optics and detectors) at a relevant scale for the final system and thus serve as prototype for IAXO, but at the same time as a fully-fledged helioscope with relevant physics reach itself, and with potential for discovery. The BabyIAXO magnet will feature two 10 m long, 70 cm diameter bores, and will host two detection lines (optics and detector) of dimensions similar to the final ones foreseen for IAXO. BabyIAXO will detect or reject solar axions or ALPs with axion-photon couplings down to gaγ ∼ 1.5 × 10−11 GeV−1, and masses up to ma ∼ 0.25 eV. BabyIAXO will offer additional opportunities for axion research in view of IAXO, like the development of precision x-ray detectors to identify particular spectral features in the solar axion spectrum, and the implementation of radiofrequency-cavity-based axion dark matter setups.

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Gaseous time projection chambers for rare event detection: results from the T-REX project. I. Double beta decay

Cited by 34 publications

References 48 publications

Background assessment for the TREX dark matter experiment

Background assessment for the TREX dark matter experiment

TREX-DM: a low-background Micromegas-based TPC for low-mass WIMP detection

Conceptual design of BabyIAXO, the intermediate stage towards the International Axion Observatory

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