Neutral bremsstrahlung in two-phase argon electroluminescence: further studies and possible applications

Bondar, A.; Dolgov, A.D.; Frolov, E.; Nosov, V. V.; Oleynikov, V.; Shemyakina, E.; Sokolov, A.

doi:10.1016/j.nima.2019.162432

Cited by 20 publications

(49 citation statements)

References 21 publications

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“…From Figures 4 and 9 one can see that NBrS EL, albeit being significantly weaker than ordinary EL above the Ar excitation threshold, has no threshold in electric field, in contrast to ordinary EL, and thus dominates below the threshold. Accordingly, the NBrS effect can explain two remarkable properties of proportional EL observed in experiment [9,13,19]: that of the photon emission below the Ar excitation threshold and that of the substantial contribution of the non-VUV spectral component above the threshold. ) and ionization ( ) (from [9], with permission from Elsevier).…”

Section: Electroluminescence Due Neutral Bremsstrahlung Effectmentioning

confidence: 86%

“…Their time constants are of 4.2 ns and 3.1 μs respectively: Figure 5. Summary of experimental data on reduced electroluminescence (EL) yield in gaseous Ar for all known (EL) mechanisms: for NBrS EL below 1000 nm, measured in [9,13] at 87 K; for ordinary EL in the VUV, due to excimer emission going via Ar * (3p 5 4s 1 ) excited states, measured in [9,13] at 87 K and in [14] at 293 K; for EL in the NIR due to atomic transitions going via Ar * (3p 5 4p 1 ) excited states measured in [15] at 163 K.…”

Section: Electroluminescence Due To Excimer Emissionmentioning

confidence: 99%

“…Note that just in this field region, namely nominally at 4.6 Td, the DarkSide dark matter search experiment operates [22]. In [9,13] the NBrS contribution was measured, using dedicated spectral devices insensitive to the VUV, and appropriately subtracted from the data obtained with VUV-sensitive devices. The resulted EL yield of ordinary EL, shown in Figure 11, is in good agreement with the theory.…”

Section: Electroluminescence Due To Atomic Transitions In the Nirmentioning

confidence: 99%

“…Figure13. Gallery of concepts of charge signal amplification in two-phase detectors, using electron avalanching in the gas phase and charge or optical readout, by 2012 in order of introduction.…”

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Electroluminescence and Electron Avalanching in Two-Phase Detectors

Buzulutskov

2020

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Electroluminescence and electron avalanching are the physical effects used in two-phase argon and xenon detectors for dark matter searches and neutrino detection, to amplify the primary ionization signal directly in cryogenic noble-gas media. We review the concepts of such light and charge signal amplification, including a combination thereof, both in the gas and in the liquid phase. Puzzling aspects of the physics of electroluminescence and electron avalanching in two-phase detectors are explained, and detection techniques based on these effects are described.

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Section: Electroluminescence Due Neutral Bremsstrahlung Effectmentioning

confidence: 86%

Section: Electroluminescence Due To Excimer Emissionmentioning

confidence: 99%

Section: Electroluminescence Due To Atomic Transitions In the Nirmentioning

confidence: 99%

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confidence: 99%

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Electroluminescence and Electron Avalanching in Two-Phase Detectors

Buzulutskov

2020

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“…In addition to the ordinary EL mechanism, a concurrent EL mechanism, based on bremsstrahlung of drifting electrons scattered on neutral atoms (so-called "neutral bremsstrahlung", NBrS), has been recently revealed [15,16]. It was shown that the NBrS effect can explain two remarkable properties of proportional electroluminescence: photon emission below the Ar excitation threshold and the substantial contribution of a non-VUV spectral component.…”

Section: Alternative Concepts Of Sipm-matrix Readout Of Two-phase Argon Detectorsmentioning

confidence: 99%

SiPM-matrix readout of two-phase argon detectors using electroluminescence in the visible and near infrared range

Aalseth¹,

Abdelhakim²,

Agnes³

et al. 2021

Eur. Phys. J. C

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Proportional electroluminescence (EL) in noble gases is used in two-phase detectors for dark matter searches to record (in the gas phase) the ionization signal induced by particle scattering in the liquid phase. The “standard” EL mechanism is considered to be due to noble gas excimer emission in the vacuum ultraviolet (VUV). In addition, there are two alternative mechanisms, producing light in the visible and near infrared (NIR) ranges. The first is due to bremsstrahlung of electrons scattered on neutral atoms (“neutral bremsstrahlung”, NBrS). The second, responsible for electron avalanche scintillation in the NIR at higher electric fields, is due to transitions between excited atomic states. In this work, we have for the first time demonstrated two alternative techniques of the optical readout of two-phase argon detectors, in the visible and NIR range, using a silicon photomultiplier matrix and electroluminescence due to either neutral bremsstrahlung or avalanche scintillation. The amplitude yield and position resolution were measured for these readout techniques, which allowed to assess the detection threshold for electron and nuclear recoils in two-phase argon detectors for dark matter searches. To the best of our knowledge, this is the first practical application of the NBrS effect in detection science.

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