First studies on cascaded dual-phase liquid hole-multipliers in xenon

G. Martínez-Lema; A. Roy; A. Breskin; L. Arazi

doi:10.1016/j.nima.2025.170366

First studies on cascaded dual-phase liquid hole-multipliers in xenon

G. Martínez-Lema, A. Roy, A. Breskin, L. Arazi

Ben-Gurion University of the Negev, Weizmann Institute of Science

Research output: Contribution to journal › Article › peer-review

Abstract

Challenges in scaling up noble-liquid time projection chambers prompted the exploration of new detection concepts. The liquid hole-multiplier (LHM) was introduced as a potential component, enabling the detection of ionization electrons and VUV photons. Prior studies focused on perforated electrodes coated with CsI immersed in the liquid and electroluminescence amplification produced on a bubble trapped underneath. However, the performance was hindered by electron transfer across the liquid-gas interface. Here, we explored a bubble-free variant, placing a CsI-coated Thick Gas Electron Multiplier electrode below the liquid-gas interface to improve the transfer efficiency across it. Results show >5-fold improvement in the S1’/S2 ratio (a proxy for the photon detection efficiency (PDE)) compared to the bubble-assisted LHM. Although the achieved PDE is still below expectation (∼4%), we propose potential improvements to enhance the performance of this detector.

Original language	American English
Article number	170366
Journal	Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Volume	1075
Early online date	10 Mar 2025
DOIs	https://doi.org/10.1016/j.nima.2025.170366
State	Published Online - 10 Mar 2025

Keywords

Charge transport
Cryogenic detectors
Micropattern gaseous detectors
Multiplication and electroluminescence in rare gases and liquids
Noble liquid detectors
Time projection chambers

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Instrumentation

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10.1016/j.nima.2025.170366

Cite this

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title = "First studies on cascaded dual-phase liquid hole-multipliers in xenon",

abstract = "Challenges in scaling up noble-liquid time projection chambers prompted the exploration of new detection concepts. The liquid hole-multiplier (LHM) was introduced as a potential component, enabling the detection of ionization electrons and VUV photons. Prior studies focused on perforated electrodes coated with CsI immersed in the liquid and electroluminescence amplification produced on a bubble trapped underneath. However, the performance was hindered by electron transfer across the liquid-gas interface. Here, we explored a bubble-free variant, placing a CsI-coated Thick Gas Electron Multiplier electrode below the liquid-gas interface to improve the transfer efficiency across it. Results show >5-fold improvement in the S1{\textquoteright}/S2 ratio (a proxy for the photon detection efficiency (PDE)) compared to the bubble-assisted LHM. Although the achieved PDE is still below expectation (∼4%), we propose potential improvements to enhance the performance of this detector.",

keywords = "Charge transport, Cryogenic detectors, Micropattern gaseous detectors, Multiplication and electroluminescence in rare gases and liquids, Noble liquid detectors, Time projection chambers",

author = "G. Mart{\'i}nez-Lema and A. Roy and A. Breskin and L. Arazi",

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doi = "10.1016/j.nima.2025.170366",

language = "American English",

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T1 - First studies on cascaded dual-phase liquid hole-multipliers in xenon

AU - Martínez-Lema, G.

AU - Roy, A.

AU - Breskin, A.

AU - Arazi, L.

PY - 2025/3/10

Y1 - 2025/3/10

N2 - Challenges in scaling up noble-liquid time projection chambers prompted the exploration of new detection concepts. The liquid hole-multiplier (LHM) was introduced as a potential component, enabling the detection of ionization electrons and VUV photons. Prior studies focused on perforated electrodes coated with CsI immersed in the liquid and electroluminescence amplification produced on a bubble trapped underneath. However, the performance was hindered by electron transfer across the liquid-gas interface. Here, we explored a bubble-free variant, placing a CsI-coated Thick Gas Electron Multiplier electrode below the liquid-gas interface to improve the transfer efficiency across it. Results show >5-fold improvement in the S1’/S2 ratio (a proxy for the photon detection efficiency (PDE)) compared to the bubble-assisted LHM. Although the achieved PDE is still below expectation (∼4%), we propose potential improvements to enhance the performance of this detector.

AB - Challenges in scaling up noble-liquid time projection chambers prompted the exploration of new detection concepts. The liquid hole-multiplier (LHM) was introduced as a potential component, enabling the detection of ionization electrons and VUV photons. Prior studies focused on perforated electrodes coated with CsI immersed in the liquid and electroluminescence amplification produced on a bubble trapped underneath. However, the performance was hindered by electron transfer across the liquid-gas interface. Here, we explored a bubble-free variant, placing a CsI-coated Thick Gas Electron Multiplier electrode below the liquid-gas interface to improve the transfer efficiency across it. Results show >5-fold improvement in the S1’/S2 ratio (a proxy for the photon detection efficiency (PDE)) compared to the bubble-assisted LHM. Although the achieved PDE is still below expectation (∼4%), we propose potential improvements to enhance the performance of this detector.

KW - Charge transport

KW - Cryogenic detectors

KW - Micropattern gaseous detectors

KW - Multiplication and electroluminescence in rare gases and liquids

KW - Noble liquid detectors

KW - Time projection chambers

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U2 - 10.1016/j.nima.2025.170366

DO - 10.1016/j.nima.2025.170366

M3 - Article

SN - 0168-9002

VL - 1075

JO - Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

JF - Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

M1 - 170366

ER -

First studies on cascaded dual-phase liquid hole-multipliers in xenon

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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