Direct observation of bubble-assisted electroluminescence in liquid xeno

Eran Erdal; Lior Arazi; V. Chepel; M. L. Rappaport; David Vartsky; Amos Breskin

doi:10.1088/1748-0221/10/11/P11002

Direct observation of bubble-assisted electroluminescence in liquid xeno

Eran Erdal, Lior Arazi, V. Chepel, M. L. Rappaport, David Vartsky, Amos Breskin

Weizmann Institute of Science

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

Abstract

Bubble formation in liquid xenon underneath a Thick Gaseous Electron Multiplier (THGEM) electrode immersed in liquid xenon was observed with a CCD camera. With voltage across the THGEM, the appearance of bubbles was correlated with that of electroluminescence signals induced by ionization electrons from alpha-particle tracks. This confirms recent indirect evidence that the observed photons are due to electroluminescence within a xenon vapor layer trapped under the electrode. The bubbles seem to emerge spontaneously due to heat flow from 300 K into the liquid, or in a controlled manner by locally boiling the liquid with resistive wires. Controlled bubble formation resulted in energy resolution of σ/E 7.5% for ∼ 6000 ionization electrons. The phenomenon could pave ways towards the conception of large-volume 'local dual-phase' noble-liquid TPCs.

Original language	English
Article number	P11002
Journal	Journal of Instrumentation
Volume	10
Issue number	11
DOIs	https://doi.org/10.1088/1748-0221/10/11/P11002
State	Published - 5 Nov 2015

Keywords

Charge transport
Micropattern gaseous detectors (MSGC, GEM, THGEM, RETHGEM, MHSP, MICROPIC, MICROMEGAS, InGrid, etc)
Noble liquid detectors (scintillation, ionization, double-phase)
multiplication and electroluminescence in rare gases and liquids

All Science Journal Classification (ASJC) codes

Instrumentation
Mathematical Physics

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10.1088/1748-0221/10/11/P11002

http://arxiv.org/abs/1509.02354License: Other

Cite this

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title = "Direct observation of bubble-assisted electroluminescence in liquid xeno",

abstract = "Bubble formation in liquid xenon underneath a Thick Gaseous Electron Multiplier (THGEM) electrode immersed in liquid xenon was observed with a CCD camera. With voltage across the THGEM, the appearance of bubbles was correlated with that of electroluminescence signals induced by ionization electrons from alpha-particle tracks. This confirms recent indirect evidence that the observed photons are due to electroluminescence within a xenon vapor layer trapped under the electrode. The bubbles seem to emerge spontaneously due to heat flow from 300 K into the liquid, or in a controlled manner by locally boiling the liquid with resistive wires. Controlled bubble formation resulted in energy resolution of σ/E 7.5% for ∼ 6000 ionization electrons. The phenomenon could pave ways towards the conception of large-volume 'local dual-phase' noble-liquid TPCs.",

keywords = "Charge transport, Micropattern gaseous detectors (MSGC, GEM, THGEM, RETHGEM, MHSP, MICROPIC, MICROMEGAS, InGrid, etc), Noble liquid detectors (scintillation, ionization, double-phase), multiplication and electroluminescence in rare gases and liquids",

author = "Eran Erdal and Lior Arazi and V. Chepel and Rappaport, {M. L.} and David Vartsky and Amos Breskin",

note = "Publisher Copyright: {\textcopyright} 2015 IOP Publishing Ltd and Sissa Medialab srl.",

year = "2015",

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doi = "10.1088/1748-0221/10/11/P11002",

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T1 - Direct observation of bubble-assisted electroluminescence in liquid xeno

AU - Erdal, Eran

AU - Arazi, Lior

AU - Chepel, V.

AU - Rappaport, M. L.

AU - Vartsky, David

AU - Breskin, Amos

PY - 2015/11/5

Y1 - 2015/11/5

N2 - Bubble formation in liquid xenon underneath a Thick Gaseous Electron Multiplier (THGEM) electrode immersed in liquid xenon was observed with a CCD camera. With voltage across the THGEM, the appearance of bubbles was correlated with that of electroluminescence signals induced by ionization electrons from alpha-particle tracks. This confirms recent indirect evidence that the observed photons are due to electroluminescence within a xenon vapor layer trapped under the electrode. The bubbles seem to emerge spontaneously due to heat flow from 300 K into the liquid, or in a controlled manner by locally boiling the liquid with resistive wires. Controlled bubble formation resulted in energy resolution of σ/E 7.5% for ∼ 6000 ionization electrons. The phenomenon could pave ways towards the conception of large-volume 'local dual-phase' noble-liquid TPCs.

AB - Bubble formation in liquid xenon underneath a Thick Gaseous Electron Multiplier (THGEM) electrode immersed in liquid xenon was observed with a CCD camera. With voltage across the THGEM, the appearance of bubbles was correlated with that of electroluminescence signals induced by ionization electrons from alpha-particle tracks. This confirms recent indirect evidence that the observed photons are due to electroluminescence within a xenon vapor layer trapped under the electrode. The bubbles seem to emerge spontaneously due to heat flow from 300 K into the liquid, or in a controlled manner by locally boiling the liquid with resistive wires. Controlled bubble formation resulted in energy resolution of σ/E 7.5% for ∼ 6000 ionization electrons. The phenomenon could pave ways towards the conception of large-volume 'local dual-phase' noble-liquid TPCs.

KW - Charge transport

KW - Micropattern gaseous detectors (MSGC, GEM, THGEM, RETHGEM, MHSP, MICROPIC, MICROMEGAS, InGrid, etc)

KW - Noble liquid detectors (scintillation, ionization, double-phase)

KW - multiplication and electroluminescence in rare gases and liquids

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U2 - 10.1088/1748-0221/10/11/P11002

DO - 10.1088/1748-0221/10/11/P11002

M3 - مقالة

SN - 1748-0221

VL - 10

JO - Journal of Instrumentation

JF - Journal of Instrumentation

IS - 11

M1 - P11002

ER -

Direct observation of bubble-assisted electroluminescence in liquid xeno

Abstract

Keywords

All Science Journal Classification (ASJC) codes

Access to Document

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