Performance of Hamamatsu R11410-20 PMTs under intense illumination in a two-phase cryogenic emission detector

Akimov, D. Yu.; Belov, V.; Bolozdynya, A.; Kaplin, V.; Хромов, А. В.; Kozlova, E.; Maklyaev, E. F.; Melikyan, Y.; Shakirov, A.; Sosnovtsev, V.

doi:10.1088/1748-0221/11/12/p12005

Cited by 4 publications

(3 citation statements)

References 16 publications

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“…The two-phase emission detector RED-100 (figure 2) contains ∼ 200 kg of liquid xenon (total amount) and ∼ 160 kg in a Teflon-made light collection dodecagon prism placed inside an electrode drift system. The liquid xenon TPC is viewed by two arrays of 19 Hamamatsu R11410-20 PMTs [26][27][28] and is installed into a titanium cryostat [29]. Detailed description of the RED-100 detector is given in [19].…”

Section: The Two-phase Emission Detector Red-100mentioning

confidence: 99%

“…The electron shutter also serves to satisfy the 1-st requirement: the illumination of PMTs by electroluminescence from muons is significantly reduced, because only the above-G2 part of the muon track produces the light. To avoid detection of this part of the light by PMTs, our previously developed method of PMT disabling by applying a positive pulsed bias (the same 300-V pulse) to photocathodes is used (see details in [26,28]).…”

Section: The Two-phase Emission Detector Red-100mentioning

confidence: 99%

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First ground-level laboratory test of the two-phase xenon emission detector RED-100

Akimov

Belov²,

Bolozdynya³

et al. 2020

J. Inst.

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RED-100 is a two-phase detector for study of coherent elastic scattering of reactor electron antineutrinos off xenon atomic nuclei. The detector contains a total of 200 kg of liquid xenon in a titanium cryostat with 160 kg of xenon in active volume inside a Teflon-made light collection cage associated with electrode system. The active volume is viewed by two arrays of nineteen 3"-diameter Hamamatsu R11410-20 PMTs assembled in two planes on top and bottom. The electrode system is equipped with an electron shutter (a patented device) to reduce a "spontaneous" single-electron noise. The detector was tested in a ground-level laboratory. The obtained results demonstrate that detection of coherent elastic scattering of reactor antineutrinos off xenon nuclei at Kalinin nuclear power plant with the RED-100 detector is feasible with a threshold of 4 ionization electrons.

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Section: The Two-phase Emission Detector Red-100mentioning

confidence: 99%

Section: The Two-phase Emission Detector Red-100mentioning

confidence: 99%

First ground-level laboratory test of the two-phase xenon emission detector RED-100

Akimov

Belov²,

Bolozdynya³

et al. 2020

J. Inst.

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“…The PMT bases are directly connected to the photomultiplier pins. The specific of the RED-100 detector operation requires the very wide dynamic range of PMT: from the single photoelectron signals of small scintillation to the very intense electroluminescent signals having several millions of photoelectrons; see for details [3] paper. Moreover, the rate of appearance of scintillation signal is substantially high, and the significant average anode current may result in nonlinearity of the PMT gain.…”

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confidence: 99%

Computer modelling of the Hamamatsu R11410-20 PMT

Akimov

Kozlova

Melikyan

2017

J. Phys.: Conf. Ser.

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Abstract. A computer model of operation of Hamamatsu R11410-20 photomultiplier based on SPICE software package has been developed. The PMT amplification process is simulated with the use of voltage and current controlled sources of current. Boundaries of linear zone were obtained for high anode current (with respect to the base current) operation regime. The results of simulation are in reasonable agreement with the experimentally measured PMT characteristics. The model can be used for simulation of any type of PMT. IntroductionThere are various specific photomultiplier tube (PMT) applications when the anode current is relatively high in compare to the base current. The one of those is the use of PMTs for the scintillation and electroluminescent light detection in cryogenic noble gas filled two-phase emission detectors widely used nowadays to search for WIMP particles of dark matter in the Universe [1]. The RED-100 is a two-phase emission detector built for the experiment on coherent elastic neutrino-nucleus scattering (CEvNS) observation [2], another challenging experiment that is carried in a vicinity of a nuclear power plant reactor. There are 38 Hamamatsu R11410-20 3"-diameter PMTs in the RED-100 detector divided into two arrays, the top and bottom ones, with 19 PMTs in each array. The PTS of the RED-100 detector operates in the liquid xenon environment. The PMT bases are directly connected to the photomultiplier pins. The specific of the RED-100 detector operation requires the very wide dynamic range of PMT: from the single photoelectron signals of small scintillation to the very intense electroluminescent signals having several millions of photoelectrons; see for details [3] paper. Moreover, the rate of appearance of scintillation signal is substantially high, and the significant average anode current may result in nonlinearity of the PMT gain. This problem can be solved by the increase of the PMT base current or by designing a special divider circuit having individual power suppliers for the last dynodes. We selected the first option because of the restriction of cabling inside the detector cryostat. On the other hand, the value of the PMT base current must be restricted in order to avoid liquid xenon boiling on the divider circuit resistors.The main task when designing the PMT divider circuit was to understand the limitation on the average anode current of the PMT when the base current is set to a certain value. The common practice is to do this experimentally. However, computer modeling with the use of standard electrical circuit simulation packages may economize efforts significantly. Surprisingly, we have found only one paper [5] dedicated to computer modeling of a PMT with the use of SPICE package.

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Study of cryogenic photomultiplier tubes for the future two-phase cryogenic avalanche detector

et al. 2017

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A: We report the results of a characterization study of several types of cryogenic photomultipliers manufactured by Hamamatsu Photonics and intended for operation in liquid Ar conditions, namely: compact 2-inch R6041-506MOD tubes, 3-inch R11065-10 and R11065-MOD tubes for operation in liquid Ar and 3-inch R11410-20 tubes originally designed for operation in liquid Xe. These types of PMT are proposed for installation into the future two-phase cryogenic avalanche detector that is developed in the Laboratory of Cosmology and Particle Physics of the Novosibirsk State University jointly with the Budker Institute of Nuclear Physics. Eight R11065 PMTs and seven R11410-20 tubes were tested and all demonstrated excellent performance in liquid Ar in terms of gain and relative single electron efficiency. All 3-inch PMTs showed a maximal gain in liquid Ar above 5x10 6 and relative single electron efficiency higher than 95%. Compact R6041-506MOD tubes have dynode system different from that of the 3-inch photomultipliers and thus their single electron energy resolution and relative efficiency is much worse than that of 3-inch tubes. From 21 2-inch PMTs only 12 tubes were selected with acceptable, i.e. higher than 75%, relative single electron efficiency and the maximal gain higher than 5x10 6 . However, these PMTs are very attractive because they are the only compact type of tubes that can operate in liquid Ar.

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Performance of Hamamatsu R11410-20 PMTs under intense illumination in a two-phase cryogenic emission detector

Cited by 4 publications

References 16 publications

First ground-level laboratory test of the two-phase xenon emission detector RED-100

First ground-level laboratory test of the two-phase xenon emission detector RED-100

Computer modelling of the Hamamatsu R11410-20 PMT

Study of cryogenic photomultiplier tubes for the future two-phase cryogenic avalanche detector

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