Performance improvement of a discrete dynode electron multiplication system through the optimization of secondary electron emitter and the adoption of double-grid dynode structure

The discrete dynode electron multiplication system (DD-EMS) is the core part of commonly used photomultiplier tubes and electron multipliers, and it has a great influence on the signal amplification capability of these devices. In this work, the sputtering time of Mg target during the deposition of...

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Published inNuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment Vol. 1062; p. 169162
Main Authors Liu, Biye, Li, Jie, Chen, Song, Yang, Jishi, Hu, Wenbo, Tian, Jinshou, Wu, Shengli
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.05.2024
Subjects
Discrete dynode electron multiplication system
Double-grid structure
MgO layer thickness
MgO/(MgO–Au)/Au multilayer film
Secondary electron emission
Discrete dynode electron multiplication system
Double-grid structure
Secondary electron emission
MgO layer thickness
MgO/(MgO–Au)/Au multilayer film
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Abstract The discrete dynode electron multiplication system (DD-EMS) is the core part of commonly used photomultiplier tubes and electron multipliers, and it has a great influence on the signal amplification capability of these devices. In this work, the sputtering time of Mg target during the deposition of the surface MgO layer of the MgO/(MgO–Au)/Au multilayer film as the secondary electron emitter was optimized, and the strategy of double-grid structures applied at the 7th and 8th dynodes was proposed with the intention of improving the gain and stability of nine-stage DD-EMS under electron bombardment to satisfy the requirements of detecting the single photon or single charged particle. The investigation results show that the DD-EMS fabricated by using the MgO/(MgO–Au)/Au film with a Mg target's sputtering time of 3600 s has the highest maximal gain of 1.22 × 106 and the lowest gain attenuation rate of 15.7%/mC under electron bombardment. In addition, the DD-EMS with the double-grid structure has a higher maximal gain of 1.62 × 106 and a lower gain attenuation rate of 11.6%/mC under continuous electron bombardment, which are 32.8% increased and 17.7% reduced respectively in comparison with that of the single-grid structure. •The surface MgO layer of MgO/(MgO–Au)/Au multilayer film is optimized.•The strategy of double-grid structures at 7th and 8th dynodes is proposed.•The optimized electron multiplication system has a gain of 1.62 × 106.
AbstractList The discrete dynode electron multiplication system (DD-EMS) is the core part of commonly used photomultiplier tubes and electron multipliers, and it has a great influence on the signal amplification capability of these devices. In this work, the sputtering time of Mg target during the deposition of the surface MgO layer of the MgO/(MgO–Au)/Au multilayer film as the secondary electron emitter was optimized, and the strategy of double-grid structures applied at the 7th and 8th dynodes was proposed with the intention of improving the gain and stability of nine-stage DD-EMS under electron bombardment to satisfy the requirements of detecting the single photon or single charged particle. The investigation results show that the DD-EMS fabricated by using the MgO/(MgO–Au)/Au film with a Mg target's sputtering time of 3600 s has the highest maximal gain of 1.22 × 106 and the lowest gain attenuation rate of 15.7%/mC under electron bombardment. In addition, the DD-EMS with the double-grid structure has a higher maximal gain of 1.62 × 106 and a lower gain attenuation rate of 11.6%/mC under continuous electron bombardment, which are 32.8% increased and 17.7% reduced respectively in comparison with that of the single-grid structure. •The surface MgO layer of MgO/(MgO–Au)/Au multilayer film is optimized.•The strategy of double-grid structures at 7th and 8th dynodes is proposed.•The optimized electron multiplication system has a gain of 1.62 × 106.
ArticleNumber 169162
Author Liu, Biye
Hu, Wenbo
Tian, Jinshou
Wu, Shengli
Li, Jie
Yang, Jishi
Chen, Song
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Keywords Discrete dynode electron multiplication system
Double-grid structure
Secondary electron emission
MgO layer thickness
MgO/(MgO–Au)/Au multilayer film
Language English
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Snippet The discrete dynode electron multiplication system (DD-EMS) is the core part of commonly used photomultiplier tubes and electron multipliers, and it has a...
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elsevier
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StartPage 169162
SubjectTerms Discrete dynode electron multiplication system
Double-grid structure
MgO layer thickness
MgO/(MgO–Au)/Au multilayer film
Secondary electron emission
Title Performance improvement of a discrete dynode electron multiplication system through the optimization of secondary electron emitter and the adoption of double-grid dynode structure
URI https://dx.doi.org/10.1016/j.nima.2024.169162
Volume 1062
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