Rugged bialkali photocathodes encapsulated with graphene and thin metal film

Protection of free-electron sources has been technically challenging due to lack of materials that transmit electrons while preventing corrosive gas molecules. Two-dimensional materials uniquely possess both of required properties. Here, we report three orders of magnitude increase in active pressur...

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Bibliographic Details
Published in:Scientific reports 2023-02, Vol.13 (1), p.2412-9, Article 2412
Main Authors: Guo, Lei, Liu, Fangze, Koyama, Kazuki, Regis, Nolan, Alexander, Anna M., Wang, Gaoxue, DeFazio, Jeffrey, Valdez, James A., Poudel, Anju, Yamamoto, Masahiro, Moody, Nathan A., Takashima, Yoshifumi, Yamaguchi, Hisato
Format: Article
Language:English
Subjects:
639/925
639/925/918
Cesium
Graphene
Humanities and Social Sciences
Illumination
multidisciplinary
Nickel
Science
Science (multidisciplinary)
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Summary:Protection of free-electron sources has been technically challenging due to lack of materials that transmit electrons while preventing corrosive gas molecules. Two-dimensional materials uniquely possess both of required properties. Here, we report three orders of magnitude increase in active pressure and factor of two enhancement in the lifetime of high quantum efficiency (QE) bialkali photocathodes (cesium potassium antimonide (CsK 2 Sb)) by encapsulating them in graphene and thin nickel (Ni) film. The photoelectrons were extracted through the graphene protection layer in a reflection mode, and we achieved QE of ~ 0.17% at ~ 3.4 eV, 1/e lifetime of 188 h with average current of 8.6 nA under continuous illumination, and no decrease of QE at the pressure of as high as ~ 1 × 10 –3  Pa. In comparison, the QE decreased drastically at 10 –6  Pa for bare, non-protected CsK 2 Sb photocathodes and their 1/e lifetime under continuous illumination was ~ 48 h. We attributed the improvements to the gas impermeability and photoelectron transparency of graphene.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-023-29374-6